/////////////////////////////////////////////////////////////////////////
// $Id: fetchdecode.cc 11565 2012-12-27 19:31:21Z sshwarts $
/////////////////////////////////////////////////////////////////////////
//
//  Copyright (C) 2001-2012  The Bochs Project
//
//  This library is free software; you can redistribute it and/or
//  modify it under the terms of the GNU Lesser General Public
//  License as published by the Free Software Foundation; either
//  version 2 of the License, or (at your option) any later version.
//
//  This library is distributed in the hope that it will be useful,
//  but WITHOUT ANY WARRANTY; without even the implied warranty of
//  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
//  Lesser General Public License for more details.
//
//  You should have received a copy of the GNU Lesser General Public
//  License along with this library; if not, write to the Free Software
//  Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA B 02110-1301 USA
//
/////////////////////////////////////////////////////////////////////////

#define NEED_CPU_REG_SHORTCUTS 1
#include "bochs.h"
#include "cpu.h"
#define LOG_THIS BX_CPU_THIS_PTR

///////////////////////////
// prefix bytes
// opcode bytes
// modrm/sib
// address displacement
// immediate constant
///////////////////////////

#define X 0 /* undefined opcode */

static const Bit8u BxOpcodeHasModrm32[512] = {
  /*       0 1 2 3 4 5 6 7 8 9 a b c d e f          */
  /*       -------------------------------          */
  /* 00 */ 1,1,1,1,0,0,0,0,1,1,1,1,0,0,0,X,
  /* 10 */ 1,1,1,1,0,0,0,0,1,1,1,1,0,0,0,0,
  /* 20 */ 1,1,1,1,0,0,X,0,1,1,1,1,0,0,X,0,
  /* 30 */ 1,1,1,1,0,0,X,0,1,1,1,1,0,0,X,0,
  /* 40 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  /* 50 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  /* 60 */ 0,0,1,1,X,X,X,X,0,1,0,1,0,0,0,0,
  /* 70 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  /* 80 */ 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
  /* 90 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  /* A0 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  /* B0 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  /* C0 */ 1,1,0,0,1,1,1,1,0,0,0,0,0,0,0,0,
  /* D0 */ 1,1,1,1,0,0,0,0,1,1,1,1,1,1,1,1,
  /* E0 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  /* F0 */ X,0,X,X,0,0,1,1,0,0,0,0,0,0,1,1,
  /*       0 1 2 3 4 5 6 7 8 9 a b c d e f           */
  /*       -------------------------------           */
           1,1,1,1,X,0,0,0,0,0,X,0,X,0,0,0,//AO1,1,1,1,X,0,0,0,0,0,X,0,X,1,0,1, /* 0F 00 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0F 10 */
           1,1,1,1,0,X,0,X,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,X,1,X,1,1,1,1,1,1,1,1, /* 0F 20 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO0,0,0,0,0,0,X,X,1,X,1,X,X,X,X,X, /* 0F 30 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0F 40 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0F 50 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0F 60 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,0,1,1,X,X,1,1,1,1, /* 0F 70 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0F 80 */
           1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0F 90 */
           0,0,0,1,1,1,0,0,0,0,0,1,1,1,0,1,//AO0,0,0,1,1,1,0,0,0,0,0,1,1,1,1,1, /* 0F A0 */
           1,1,1,1,1,1,1,1,0,0,1,1,1,1,1,1,//AO1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0F B0 */
           1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0, /* 0F C0 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0F D0 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0F E0 */
           0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,//AO1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,X  /* 0F F0 */
  /*       -------------------------------           */
  /*       0 1 2 3 4 5 6 7 8 9 a b c d e f           */
};

#undef X

// Some info on the opcodes at {0F A6} and {0F A7}
//
// On 386 steps A0-B0:
//   {OF A6} = XBTS
//   {OF A7} = IBTS
// On 486 steps A0-B0:
//   {OF A6} = CMPXCHG 8
//   {OF A7} = CMPXCHG 16|32
//
// On 486 >= B steps, and further processors, the
// CMPXCHG instructions were moved to opcodes:
//   {OF B0} = CMPXCHG 8
//   {OF B1} = CMPXCHG 16|32

static unsigned Resolve16BaseReg[8] = {
  BX_16BIT_REG_BX,
  BX_16BIT_REG_BX,
  BX_16BIT_REG_BP,
  BX_16BIT_REG_BP,
  BX_16BIT_REG_SI,
  BX_16BIT_REG_DI,
  BX_16BIT_REG_BP,
  BX_16BIT_REG_BX
};

static unsigned Resolve16IndexReg[8] = {
  BX_16BIT_REG_SI,
  BX_16BIT_REG_DI,
  BX_16BIT_REG_SI,
  BX_16BIT_REG_DI,
  BX_NIL_REGISTER,
  BX_NIL_REGISTER,
  BX_NIL_REGISTER,
  BX_NIL_REGISTER
};

// decoding instructions; accessing seg reg's by index
static unsigned sreg_mod00_rm16[8] = {
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_SS,
  BX_SEG_REG_SS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS
};

static unsigned sreg_mod01or10_rm16[8] = {
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_SS,
  BX_SEG_REG_SS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_SS,
  BX_SEG_REG_DS
};

// decoding instructions; accessing seg reg's by index
static unsigned sreg_mod0_base32[8] = {
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_SS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS
};

static unsigned sreg_mod1or2_base32[8] = {
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS,
  BX_SEG_REG_SS,
  BX_SEG_REG_SS,
  BX_SEG_REG_DS,
  BX_SEG_REG_DS
};

// common fetchdecode32/64 opcode tables
#include "fetchdecode.h"

// table of all Bochs opcodes
bxIAOpcodeTable BxOpcodesTable[] = {
#define bx_define_opcode(a, b, c, d, s1, s2, s3, s4, e) { b, c, { s1, s2, s3, (s4) | (e) } },
#include "ia_opcodes.h"
};
#undef  bx_define_opcode

/* ************************** */
/* 512 entries for 16bit mode */
/* 512 entries for 32bit mode */
/* ************************** */

static const BxOpcodeInfo_t BxOpcodeInfo32[512*2] = {
  // 512 entries for 16bit mode
  /* 00 /w */ { BxLockable, BX_IA_ADD_EbGb },
  /* 01 /w */ { BxLockable, BX_IA_ADD_EwGw },
  /* 02 /w */ { 0, BX_IA_ADD_GbEb },
  /* 03 /w */ { 0, BX_IA_ADD_GwEw },
  /* 04 /w */ { BxImmediate_Ib, BX_IA_ADD_ALIb },
  /* 05 /w */ { BxImmediate_Iw, BX_IA_ADD_AXIw },
  /* 06 /w */ { 0, BX_IA_PUSH16_ES },
  /* 07 /w */ { 0, BX_IA_POP16_ES },
  /* 08 /w */ { BxLockable, BX_IA_OR_EbGb },
  /* 09 /w */ { BxLockable, BX_IA_OR_EwGw },
  /* 0A /w */ { 0, BX_IA_OR_GbEb },
  /* 0B /w */ { 0, BX_IA_OR_GwEw },
  /* 0C /w */ { BxImmediate_Ib, BX_IA_OR_ALIb },
  /* 0D /w */ { BxImmediate_Iw, BX_IA_OR_AXIw },
  /* 0E /w */ { 0, BX_IA_PUSH16_CS },
  /* 0F /w */ { 0, BX_IA_ERROR }, // 2-byte escape
  /* 10 /w */ { BxLockable, BX_IA_ADC_EbGb },
  /* 11 /w */ { BxLockable, BX_IA_ADC_EwGw },
  /* 12 /w */ { 0, BX_IA_ADC_GbEb },
  /* 13 /w */ { 0, BX_IA_ADC_GwEw },
  /* 14 /w */ { BxImmediate_Ib, BX_IA_ADC_ALIb },
  /* 15 /w */ { BxImmediate_Iw, BX_IA_ADC_AXIw },
  /* 16 /w */ { 0, BX_IA_PUSH16_SS },
  /* 17 /w */ { 0, BX_IA_POP16_SS },
  /* 18 /w */ { BxLockable, BX_IA_SBB_EbGb },
  /* 19 /w */ { BxLockable, BX_IA_SBB_EwGw },
  /* 1A /w */ { 0, BX_IA_SBB_GbEb },
  /* 1B /w */ { 0, BX_IA_SBB_GwEw },
  /* 1C /w */ { BxImmediate_Ib, BX_IA_SBB_ALIb },
  /* 1D /w */ { BxImmediate_Iw, BX_IA_SBB_AXIw },
  /* 1E /w */ { 0, BX_IA_PUSH16_DS },
  /* 1F /w */ { 0, BX_IA_POP16_DS },
  /* 20 /w */ { BxLockable, BX_IA_AND_EbGb },
  /* 21 /w */ { BxLockable, BX_IA_AND_EwGw },
  /* 22 /w */ { 0, BX_IA_AND_GbEb },
  /* 23 /w */ { 0, BX_IA_AND_GwEw },
  /* 24 /w */ { BxImmediate_Ib, BX_IA_AND_ALIb },
  /* 25 /w */ { BxImmediate_Iw, BX_IA_AND_AXIw },
  /* 26 /w */ { 0, BX_IA_ERROR }, // ES:
  /* 27 /w */ { 0, BX_IA_DAA },
  /* 28 /w */ { BxLockable, BX_IA_SUB_EbGb },
  /* 29 /w */ { BxLockable, BX_IA_SUB_EwGw },
  /* 2A /w */ { 0, BX_IA_SUB_GbEb },
  /* 2B /w */ { 0, BX_IA_SUB_GwEw },
  /* 2C /w */ { BxImmediate_Ib, BX_IA_SUB_ALIb },
  /* 2D /w */ { BxImmediate_Iw, BX_IA_SUB_AXIw },
  /* 2E /w */ { 0, BX_IA_ERROR }, // CS:
  /* 2F /w */ { 0, BX_IA_DAS },
  /* 30 /w */ { BxLockable, BX_IA_XOR_EbGb },
  /* 31 /w */ { BxLockable, BX_IA_XOR_EwGw },
  /* 32 /w */ { 0, BX_IA_XOR_GbEb },
  /* 33 /w */ { 0, BX_IA_XOR_GwEw },
  /* 34 /w */ { BxImmediate_Ib, BX_IA_XOR_ALIb },
  /* 35 /w */ { BxImmediate_Iw, BX_IA_XOR_AXIw },
  /* 36 /w */ { 0, BX_IA_ERROR }, // SS:
  /* 37 /w */ { 0, BX_IA_AAA },
  /* 38 /w */ { 0, BX_IA_CMP_EbGb },
  /* 39 /w */ { 0, BX_IA_CMP_EwGw },
  /* 3A /w */ { 0, BX_IA_CMP_GbEb },
  /* 3B /w */ { 0, BX_IA_CMP_GwEw },
  /* 3C /w */ { BxImmediate_Ib, BX_IA_CMP_ALIb },
  /* 3D /w */ { BxImmediate_Iw, BX_IA_CMP_AXIw },
  /* 3E /w */ { 0, BX_IA_ERROR }, // DS:
  /* 3F /w */ { 0, BX_IA_AAS },
  /* 40 /w */ { 0, BX_IA_INC_RX },
  /* 41 /w */ { 0, BX_IA_INC_RX },
  /* 42 /w */ { 0, BX_IA_INC_RX },
  /* 43 /w */ { 0, BX_IA_INC_RX },
  /* 44 /w */ { 0, BX_IA_INC_RX },
  /* 45 /w */ { 0, BX_IA_INC_RX },
  /* 46 /w */ { 0, BX_IA_INC_RX },
  /* 47 /w */ { 0, BX_IA_INC_RX },
  /* 48 /w */ { 0, BX_IA_DEC_RX },
  /* 49 /w */ { 0, BX_IA_DEC_RX },
  /* 4A /w */ { 0, BX_IA_DEC_RX },
  /* 4B /w */ { 0, BX_IA_DEC_RX },
  /* 4C /w */ { 0, BX_IA_DEC_RX },
  /* 4D /w */ { 0, BX_IA_DEC_RX },
  /* 4E /w */ { 0, BX_IA_DEC_RX },
  /* 4F /w */ { 0, BX_IA_DEC_RX },
  /* 50 /w */ { 0, BX_IA_PUSH_RX },
  /* 51 /w */ { 0, BX_IA_PUSH_RX },
  /* 52 /w */ { 0, BX_IA_PUSH_RX },
  /* 53 /w */ { 0, BX_IA_PUSH_RX },
  /* 54 /w */ { 0, BX_IA_PUSH_RX },
  /* 55 /w */ { 0, BX_IA_PUSH_RX },
  /* 56 /w */ { 0, BX_IA_PUSH_RX },
  /* 57 /w */ { 0, BX_IA_PUSH_RX },
  /* 58 /w */ { 0, BX_IA_POP_RX },
  /* 59 /w */ { 0, BX_IA_POP_RX },
  /* 5A /w */ { 0, BX_IA_POP_RX },
  /* 5B /w */ { 0, BX_IA_POP_RX },
  /* 5C /w */ { 0, BX_IA_POP_RX },
  /* 5D /w */ { 0, BX_IA_POP_RX },
  /* 5E /w */ { 0, BX_IA_POP_RX },
  /* 5F /w */ { 0, BX_IA_POP_RX },
  /* 60 /w */ { 0, BX_IA_PUSHAD16 },
  /* 61 /w */ { 0, BX_IA_POPAD16 },
  /* 62 /w */ { 0, BX_IA_BOUND_GwMa },
  /* 63 /w */ { 0, BX_IA_ARPL_EwGw },
  /* 64 /w */ { 0, BX_IA_ERROR }, // FS:
  /* 65 /w */ { 0, BX_IA_ERROR }, // GS:
  /* 66 /w */ { 0, BX_IA_ERROR }, // OS:
  /* 67 /w */ { 0, BX_IA_ERROR }, // AS:
  /* 68 /w */ { BxImmediate_Iw, BX_IA_PUSH_Iw },
  /* 69 /w */ { BxImmediate_Iw, BX_IA_IMUL_GwEwIw },
  /* 6A /w */ { BxImmediate_Ib_SE, BX_IA_PUSH_Iw },
  /* 6B /w */ { BxImmediate_Ib_SE, BX_IA_IMUL_GwEwIw },
  /* 6C /w */ { BxRepeatable, BX_IA_REP_INSB_YbDX },
  /* 6D /w */ { BxRepeatable, BX_IA_REP_INSW_YwDX },
  /* 6E /w */ { BxRepeatable, BX_IA_REP_OUTSB_DXXb },
  /* 6F /w */ { BxRepeatable, BX_IA_REP_OUTSW_DXXw },
  /* 70 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JO_Jw },
  /* 71 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNO_Jw },
  /* 72 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JB_Jw },
  /* 73 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNB_Jw },
  /* 74 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JZ_Jw },
  /* 75 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNZ_Jw },
  /* 76 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JBE_Jw },
  /* 77 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNBE_Jw },
  /* 78 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JS_Jw },
  /* 79 /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNS_Jw },
  /* 7A /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JP_Jw },
  /* 7B /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNP_Jw },
  /* 7C /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JL_Jw },
  /* 7D /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNL_Jw },
  /* 7E /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JLE_Jw },
  /* 7F /w */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNLE_Jw },
  /* 80 /w */ { BxGroup1 | BxImmediate_Ib, BX_IA_ERROR, BxOpcodeInfoG1EbIb },
  /* 81 /w */ { BxGroup1 | BxImmediate_Iw, BX_IA_ERROR, BxOpcodeInfoG1Ew },
  /* 82 /w */ { BxGroup1 | BxImmediate_Ib, BX_IA_ERROR, BxOpcodeInfoG1EbIb },
  /* 83 /w */ { BxGroup1 | BxImmediate_Ib_SE, BX_IA_ERROR, BxOpcodeInfoG1Ew },
  /* 84 /w */ { 0, BX_IA_TEST_EbGb },
  /* 85 /w */ { 0, BX_IA_TEST_EwGw },
  /* 86 /w */ { BxLockable, BX_IA_XCHG_EbGb },
  /* 87 /w */ { BxLockable, BX_IA_XCHG_EwGw },
  /* 88 /w */ { 0, BX_IA_MOV_EbGb },
  /* 89 /w */ { 0, BX_IA_MOV_EwGw },
  /* 8A /w */ { 0, BX_IA_MOV_GbEb },
  /* 8B /w */ { 0, BX_IA_MOV_GwEw },
  /* 8C /w */ { 0, BX_IA_MOV_EwSw },
  /* 8D /w */ { 0, BX_IA_LEA_GwM },
  /* 8E /w */ { 0, BX_IA_MOV_SwEw },
  /* 8F /w */ { BxGroup1A, BX_IA_ERROR, BxOpcodeInfoG1AEw },
  /* 90 /w */ { 0, BX_IA_NOP },//AO{ BxPrefixSSE, BX_IA_NOP, BxOpcodeGroupSSE_PAUSE },
  /* 91 /w */ { 0, BX_IA_XCHG_RXAX },
  /* 92 /w */ { 0, BX_IA_XCHG_RXAX },
  /* 93 /w */ { 0, BX_IA_XCHG_RXAX },
  /* 94 /w */ { 0, BX_IA_XCHG_RXAX },
  /* 95 /w */ { 0, BX_IA_XCHG_RXAX },
  /* 96 /w */ { 0, BX_IA_XCHG_RXAX },
  /* 97 /w */ { 0, BX_IA_XCHG_RXAX },
  /* 98 /w */ { 0, BX_IA_CBW },
  /* 99 /w */ { 0, BX_IA_CWD },
  /* 9A /w */ { BxImmediate_Iw | BxImmediate_Iw2 | BxTraceEnd, BX_IA_CALL16_Ap },
  /* 9B /w */ { 0, BX_IA_FWAIT },
  /* 9C /w */ { 0, BX_IA_PUSHF_Fw },
  /* 9D /w */ { BxTraceEnd, BX_IA_POPF_Fw },
  /* 9E /w */ { 0, BX_IA_SAHF },
  /* 9F /w */ { 0, BX_IA_LAHF },
  /* A0 /w */ { BxImmediate_O, BX_IA_MOV_ALOd },
  /* A1 /w */ { BxImmediate_O, BX_IA_MOV_AXOd },
  /* A2 /w */ { BxImmediate_O, BX_IA_MOV_OdAL },
  /* A3 /w */ { BxImmediate_O, BX_IA_MOV_OdAX },
  /* A4 /w */ { BxRepeatable, BX_IA_REP_MOVSB_XbYb },
  /* A5 /w */ { BxRepeatable, BX_IA_REP_MOVSW_XwYw },
  /* A6 /w */ { BxRepeatable, BX_IA_REP_CMPSB_XbYb },
  /* A7 /w */ { BxRepeatable, BX_IA_REP_CMPSW_XwYw },
  /* A8 /w */ { BxImmediate_Ib, BX_IA_TEST_ALIb },
  /* A9 /w */ { BxImmediate_Iw, BX_IA_TEST_AXIw },
  /* AA /w */ { BxRepeatable, BX_IA_REP_STOSB_YbAL },
  /* AB /w */ { BxRepeatable, BX_IA_REP_STOSW_YwAX },
  /* AC /w */ { BxRepeatable, BX_IA_REP_LODSB_ALXb },
  /* AD /w */ { BxRepeatable, BX_IA_REP_LODSW_AXXw },
  /* AE /w */ { BxRepeatable, BX_IA_REP_SCASB_ALXb },
  /* AF /w */ { BxRepeatable, BX_IA_REP_SCASW_AXXw },
  /* B0 /w */ { BxImmediate_Ib, BX_IA_MOV_RLIb },
  /* B1 /w */ { BxImmediate_Ib, BX_IA_MOV_RLIb },
  /* B2 /w */ { BxImmediate_Ib, BX_IA_MOV_RLIb },
  /* B3 /w */ { BxImmediate_Ib, BX_IA_MOV_RLIb },
  /* B4 /w */ { BxImmediate_Ib, BX_IA_MOV_RHIb },
  /* B5 /w */ { BxImmediate_Ib, BX_IA_MOV_RHIb },
  /* B6 /w */ { BxImmediate_Ib, BX_IA_MOV_RHIb },
  /* B7 /w */ { BxImmediate_Ib, BX_IA_MOV_RHIb },
  /* B8 /w */ { BxImmediate_Iw, BX_IA_MOV_RXIw },
  /* B9 /w */ { BxImmediate_Iw, BX_IA_MOV_RXIw },
  /* BA /w */ { BxImmediate_Iw, BX_IA_MOV_RXIw },
  /* BB /w */ { BxImmediate_Iw, BX_IA_MOV_RXIw },
  /* BC /w */ { BxImmediate_Iw, BX_IA_MOV_RXIw },
  /* BD /w */ { BxImmediate_Iw, BX_IA_MOV_RXIw },
  /* BE /w */ { BxImmediate_Iw, BX_IA_MOV_RXIw },
  /* BF /w */ { BxImmediate_Iw, BX_IA_MOV_RXIw },
  /* C0 /w */ { BxGroup2 | BxImmediate_Ib, BX_IA_ERROR, BxOpcodeInfoG2EbIb },
  /* C1 /w */ { BxGroup2 | BxImmediate_Ib, BX_IA_ERROR, BxOpcodeInfoG2EwIb },
  /* C2 /w */ { BxImmediate_Iw | BxTraceEnd, BX_IA_RETnear16_Iw },
  /* C3 /w */ { BxTraceEnd,                  BX_IA_RETnear16 },
  /* C4 /w */ { BxPrefixVEX, BX_IA_LES_GwMp },
  /* C5 /w */ { BxPrefixVEX, BX_IA_LDS_GwMp },
  /* C6 /w */ { BxGroup11, BX_IA_ERROR, BxOpcodeInfoG11Eb },
  /* C7 /w */ { BxGroup11, BX_IA_ERROR, BxOpcodeInfoG11Ew },
  /* C8 /w */ { BxImmediate_Iw | BxImmediate_Ib2, BX_IA_ENTER16_IwIb },
  /* C9 /w */ { 0, BX_IA_LEAVE16 },
  /* CA /w */ { BxImmediate_Iw | BxTraceEnd, BX_IA_RETfar16_Iw },
  /* CB /w */ { BxTraceEnd,                  BX_IA_RETfar16 },
  /* CC /w */ { BxTraceEnd, BX_IA_INT3 },
  /* CD /w */ { BxImmediate_Ib | BxTraceEnd, BX_IA_INT_Ib },
  /* CE /w */ { BxTraceEnd, BX_IA_INTO },
  /* CF /w */ { BxTraceEnd, BX_IA_IRET16 },
  /* D0 /w */ { BxGroup2 | BxImmediate_I1, BX_IA_ERROR, BxOpcodeInfoG2EbIb },
  /* D1 /w */ { BxGroup2 | BxImmediate_I1, BX_IA_ERROR, BxOpcodeInfoG2EwIb },
  /* D2 /w */ { BxGroup2, BX_IA_ERROR, BxOpcodeInfoG2Eb },
  /* D3 /w */ { BxGroup2, BX_IA_ERROR, BxOpcodeInfoG2Ew },
  /* D4 /w */ { BxImmediate_Ib, BX_IA_AAM },
  /* D5 /w */ { BxImmediate_Ib, BX_IA_AAD },
  /* D6 /w */ { 0, BX_IA_SALC },
  /* D7 /w */ { 0, BX_IA_XLAT },
#if BX_SUPPORT_FPU
  /* D8 /w */ { BxGroupFP, BX_IA_ERROR, BxOpcodeInfo_FPGroupD8 },
  /* D9 /w */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointD9 },
  /* DA /w */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointDA },
  /* DB /w */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointDB },
  /* DC /w */ { BxGroupFP, BX_IA_ERROR, BxOpcodeInfo_FPGroupDC },
  /* DD /w */ { BxGroupFP, BX_IA_ERROR, BxOpcodeInfo_FPGroupDD },
  /* DE /w */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointDE },
  /* DF /w */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointDF },
#else
  /* D8 /w */ { 0, BX_IA_FPU_ESC },
  /* D9 /w */ { 0, BX_IA_FPU_ESC },
  /* DA /w */ { 0, BX_IA_FPU_ESC },
  /* DB /w */ { 0, BX_IA_FPU_ESC },
  /* DC /w */ { 0, BX_IA_FPU_ESC },
  /* DD /w */ { 0, BX_IA_FPU_ESC },
  /* DE /w */ { 0, BX_IA_FPU_ESC },
  /* DF /w */ { 0, BX_IA_FPU_ESC },
#endif
  /* E0 /w */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_LOOPNE16_Jb },
  /* E1 /w */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_LOOPE16_Jb },
  /* E2 /w */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_LOOP16_Jb },
  /* E3 /w */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_JCXZ_Jb },
  /* E4 /w */ { BxImmediate_Ib, BX_IA_IN_ALIb },
  /* E5 /w */ { BxImmediate_Ib, BX_IA_IN_AXIb },
  /* E6 /w */ { BxImmediate_Ib, BX_IA_OUT_IbAL },
  /* E7 /w */ { BxImmediate_Ib, BX_IA_OUT_IbAX },
  /* E8 /w */ { BxImmediate_BrOff16 | BxTraceEnd, BX_IA_CALL_Jw },
  /* E9 /w */ { BxImmediate_BrOff16 | BxTraceEnd, BX_IA_JMP_Jw },
  /* EA /w */ { BxImmediate_Iw | BxImmediate_Iw2 | BxTraceEnd, BX_IA_JMP_Ap },
  /* EB /w */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_JMP_Jw },
  /* EC /w */ { 0, BX_IA_IN_ALDX },
  /* ED /w */ { 0, BX_IA_IN_AXDX },
  /* EE /w */ { 0, BX_IA_OUT_DXAL },
  /* EF /w */ { 0, BX_IA_OUT_DXAX },
  /* F0 /w */ { 0, BX_IA_ERROR }, // LOCK
  /* F1 /w */ { BxTraceEnd, BX_IA_INT1 },
  /* F2 /w */ { 0, BX_IA_ERROR }, // REPNE/REPNZ
  /* F3 /w */ { 0, BX_IA_ERROR }, // REP, REPE/REPZ
  /* F4 /w */ { BxTraceEnd, BX_IA_HLT },
  /* F5 /w */ { 0, BX_IA_CMC },
  /* F6 /w */ { BxGroup3, BX_IA_ERROR, BxOpcodeInfoG3Eb },
  /* F7 /w */ { BxGroup3, BX_IA_ERROR, BxOpcodeInfoG3Ew },
  /* F8 /w */ { 0, BX_IA_CLC },
  /* F9 /w */ { 0, BX_IA_STC },
  /* FA /w */ { 0, BX_IA_CLI },
  /* FB /w */ { 0, BX_IA_STI },
  /* FC /w */ { 0, BX_IA_CLD },
  /* FD /w */ { 0, BX_IA_STD },
  /* FE /w */ { BxGroup4, BX_IA_ERROR, BxOpcodeInfoG4 },
  /* FF /w */ { BxGroup5, BX_IA_ERROR, BxOpcodeInfoG5w },

  /* 0F 00 /w */ { BxGroup6, BX_IA_ERROR, BxOpcodeInfoG6 },
  /* 0F 01 /w */ { BxGroup7, BX_IA_ERROR, BxOpcodeInfoG7 },
  /* 0F 02 /w */ { 0, BX_IA_LAR_GvEw },
  /* 0F 03 /w */ { 0, BX_IA_LSL_GvEw },
  /* 0F 04 /w */ { 0, BX_IA_ERROR },
  /* 0F 05 /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_SYSCALL_LEGACY },
  /* 0F 06 /w */ { BxTraceEnd, BX_IA_CLTS },
  /* 0F 07 /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_SYSRET_LEGACY },
  /* 0F 08 /w */ { BxTraceEnd, BX_IA_INVD },
  /* 0F 09 /w */ { 0, BX_IA_WBINVD },
  /* 0F 0A /w */ { 0, BX_IA_ERROR },
  /* 0F 0B /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_UD2A },
  /* 0F 0C /w */ { 0, BX_IA_ERROR },
  /* 0F 0D /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_PREFETCHW },          // 3DNow! PREFETCHW on AMD, NOP on Intel
  /* 0F 0E /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_FEMMS },              // 3DNow! FEMMS
  /* 0F 0F /w */ { 0, BX_IA_ERROR },//AO{ BxImmediate_Ib, BX_IA_ERROR }, // 3DNow! Opcode Table
  /* 0F 10 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVUPS_VpsWps, BxOpcodeGroupSSE_0f10 },
  /* 0F 11 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVUPS_WpsVps, BxOpcodeGroupSSE_0f11 },
  /* 0F 12 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVLPS_VpsMq, BxOpcodeGroupSSE_0f12 },
  /* 0F 13 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVLPS_MqVps, BxOpcodeGroupSSE_0f13M },
  /* 0F 14 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_UNPCKLPS_VpsWdq, BxOpcodeGroupSSE_0f14 },
  /* 0F 15 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_UNPCKHPS_VpsWdq, BxOpcodeGroupSSE_0f15 },
  /* 0F 16 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVHPS_VpsMq, BxOpcodeGroupSSE_0f16 },
  /* 0F 17 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVHPS_MqVps, BxOpcodeGroupSSE_0f17M },
#if BX_CPU_LEVEL >= 6
  /* 0F 18 /w */ { 0, BX_IA_PREFETCH }, // opcode group G16, PREFETCH hints
  /* 0F 19 /w */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1A /w */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1B /w */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1C /w */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1D /w */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1E /w */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1F /w */ { 0, BX_IA_NOP },      // multi-byte NOP
#else
  /* 0F 18 /w */ { 0, BX_IA_ERROR },
  /* 0F 19 /w */ { 0, BX_IA_ERROR },
  /* 0F 1A /w */ { 0, BX_IA_ERROR },
  /* 0F 1B /w */ { 0, BX_IA_ERROR },
  /* 0F 1C /w */ { 0, BX_IA_ERROR },
  /* 0F 1D /w */ { 0, BX_IA_ERROR },
  /* 0F 1E /w */ { 0, BX_IA_ERROR },
  /* 0F 1F /w */ { 0, BX_IA_ERROR },
#endif
  /* 0F 20 /w */ { BxGroupN, BX_IA_ERROR, BxOpcodeInfoMOV_RdCd },
  /* 0F 21 /w */ { 0, BX_IA_MOV_RdDd },
  /* 0F 22 /w */ { BxGroupN, BX_IA_ERROR, BxOpcodeInfoMOV_CdRd },
  /* 0F 23 /w */ { BxTraceEnd, BX_IA_MOV_DdRd },
  /* 0F 24 /w */ { 0, BX_IA_ERROR }, // BX_IA_MOV_RdTd not implemented
  /* 0F 25 /w */ { 0, BX_IA_ERROR },
  /* 0F 26 /w */ { 0, BX_IA_ERROR }, // BX_IA_MOV_TdRd not implemented
  /* 0F 27 /w */ { 0, BX_IA_ERROR },
  /* 0F 28 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVAPS_VpsWps, BxOpcodeGroupSSE_0f28 },
  /* 0F 29 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVAPS_WpsVps, BxOpcodeGroupSSE_0f29 },
  /* 0F 2A /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTPI2PS_VpsQq, BxOpcodeGroupSSE_0f2a },
  /* 0F 2B /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVNTPS_MpsVps, BxOpcodeGroupSSE_0f2bM },
  /* 0F 2C /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTTPS2PI_PqWps, BxOpcodeGroupSSE_0f2c },
  /* 0F 2D /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTPS2PI_PqWps, BxOpcodeGroupSSE_0f2d },
  /* 0F 2E /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_UCOMISS_VssWss, BxOpcodeGroupSSE_0f2e },
  /* 0F 2F /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_COMISS_VpsWps, BxOpcodeGroupSSE_0f2f },
  /* 0F 30 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_WRMSR },
  /* 0F 31 /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_RDTSC }, // end trace to avoid multiple TSC samples in one cycle
  /* 0F 32 /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_RDMSR }, // end trace to avoid multiple TSC samples in one cycle
  /* 0F 33 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_RDPMC },
  /* 0F 34 /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_SYSENTER },
  /* 0F 35 /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_SYSEXIT },
  /* 0F 36 /w */ { 0, BX_IA_ERROR },
  /* 0F 37 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_GETSEC },
#if BX_CPU_LEVEL >= 6
  /* 0F 38 /w */ { Bx3ByteOp, BX_IA_ERROR, BxOpcode3ByteTable0f38 }, // 3-byte escape
#else
  /* 0F 38 /w */ { 0, BX_IA_ERROR },
#endif
  /* 0F 39 /w */ { 0, BX_IA_ERROR },
#if BX_CPU_LEVEL >= 6
  /* 0F 3A /w */ { Bx3ByteOp | BxImmediate_Ib, BX_IA_ERROR, BxOpcode3ByteTable0f3a }, // 3-byte escape
#else
  /* 0F 3A /w */ { 0, BX_IA_ERROR },
#endif
  /* 0F 3B /w */ { 0, BX_IA_ERROR },
  /* 0F 3C /w */ { 0, BX_IA_ERROR },
  /* 0F 3D /w */ { 0, BX_IA_ERROR },
  /* 0F 3E /w */ { 0, BX_IA_ERROR },
  /* 0F 3F /w */ { 0, BX_IA_ERROR },
  /* 0F 40 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVO_GwEw },
  /* 0F 41 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNO_GwEw },
  /* 0F 42 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVB_GwEw },
  /* 0F 43 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNB_GwEw },
  /* 0F 44 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVZ_GwEw },
  /* 0F 45 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNZ_GwEw },
  /* 0F 46 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVBE_GwEw },
  /* 0F 47 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNBE_GwEw },
  /* 0F 48 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVS_GwEw },
  /* 0F 49 /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNS_GwEw },
  /* 0F 4A /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVP_GwEw },
  /* 0F 4B /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNP_GwEw },
  /* 0F 4C /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVL_GwEw },
  /* 0F 4D /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNL_GwEw },
  /* 0F 4E /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVLE_GwEw },
  /* 0F 4F /w */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNLE_GwEw },
  /* 0F 50 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVMSKPS_GdVRps, BxOpcodeGroupSSE_0f50R },
  /* 0F 51 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_SQRTPS_VpsWps, BxOpcodeGroupSSE_0f51 },
  /* 0F 52 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_RSQRTPS_VpsWps, BxOpcodeGroupSSE_0f52 },
  /* 0F 53 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_RCPPS_VpsWps, BxOpcodeGroupSSE_0f53 },
  /* 0F 54 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ANDPS_VpsWps, BxOpcodeGroupSSE_0f54 },
  /* 0F 55 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ANDNPS_VpsWps, BxOpcodeGroupSSE_0f55 },
  /* 0F 56 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ORPS_VpsWps, BxOpcodeGroupSSE_0f56 },
  /* 0F 57 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_XORPS_VpsWps, BxOpcodeGroupSSE_0f57 },
  /* 0F 58 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ADDPS_VpsWps, BxOpcodeGroupSSE_0f58 },
  /* 0F 59 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MULPS_VpsWps, BxOpcodeGroupSSE_0f59 },
  /* 0F 5A /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTPS2PD_VpdWps, BxOpcodeGroupSSE_0f5a },
  /* 0F 5B /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTDQ2PS_VpsWdq, BxOpcodeGroupSSE_0f5b },
  /* 0F 5C /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_SUBPS_VpsWps, BxOpcodeGroupSSE_0f5c },
  /* 0F 5D /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MINPS_VpsWps, BxOpcodeGroupSSE_0f5d },
  /* 0F 5E /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_DIVPS_VpsWps, BxOpcodeGroupSSE_0f5e },
  /* 0F 5F /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MAXPS_VpsWps, BxOpcodeGroupSSE_0f5f },
  /* 0F 60 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKLBW_PqQd, BxOpcodeGroupSSE_0f60 },
  /* 0F 61 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKLWD_PqQd, BxOpcodeGroupSSE_0f61 },
  /* 0F 62 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKLDQ_PqQd, BxOpcodeGroupSSE_0f62 },
  /* 0F 63 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PACKSSWB_PqQq, BxOpcodeGroupSSE_0f63 },
  /* 0F 64 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPGTB_PqQq, BxOpcodeGroupSSE_0f64 },
  /* 0F 65 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPGTW_PqQq, BxOpcodeGroupSSE_0f65 },
  /* 0F 66 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPGTD_PqQq, BxOpcodeGroupSSE_0f66 },
  /* 0F 67 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PACKUSWB_PqQq, BxOpcodeGroupSSE_0f67 },
  /* 0F 68 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKHBW_PqQq, BxOpcodeGroupSSE_0f68 },
  /* 0F 69 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKHWD_PqQq, BxOpcodeGroupSSE_0f69 },
  /* 0F 6A /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKHDQ_PqQq, BxOpcodeGroupSSE_0f6a },
  /* 0F 6B /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PACKSSDW_PqQq, BxOpcodeGroupSSE_0f6b },
  /* 0F 6C /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE66, BX_IA_PUNPCKLQDQ_VdqWdq },
  /* 0F 6D /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE66, BX_IA_PUNPCKHQDQ_VdqWdq },
  /* 0F 6E /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVD_PqEd, BxOpcodeGroupSSE_0f6e },
  /* 0F 6F /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVQ_PqQq, BxOpcodeGroupSSE_0f6f },
  /* 0F 70 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_PSHUFW_PqQqIb, BxOpcodeGroupSSE_0f70 },
  /* 0F 71 /w */ { 0, BX_IA_ERROR },//AO{ BxGroup12, BX_IA_ERROR, BxOpcodeInfoG12R },
  /* 0F 72 /w */ { 0, BX_IA_ERROR },//AO{ BxGroup13, BX_IA_ERROR, BxOpcodeInfoG13R },
  /* 0F 73 /w */ { 0, BX_IA_ERROR },//AO{ BxGroup14, BX_IA_ERROR, BxOpcodeInfoG14R },
  /* 0F 74 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPEQB_PqQq, BxOpcodeGroupSSE_0f74 },
  /* 0F 75 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPEQW_PqQq, BxOpcodeGroupSSE_0f75 },
  /* 0F 76 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPEQD_PqQq, BxOpcodeGroupSSE_0f76 },
  /* 0F 77 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_EMMS, BxOpcodeGroupSSE_ERR },
  /* 0F 78 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_VMREAD_EdGd, BxOpcodeGroupSSE4A_0f78 },
  /* 0F 79 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_VMWRITE_GdEd, BxOpcodeGroupSSE4A_0f79 },
  /* 0F 7A /w */ { 0, BX_IA_ERROR },
  /* 0F 7B /w */ { 0, BX_IA_ERROR },
  /* 0F 7C /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0f7c },
  /* 0F 7D /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0f7d },
  /* 0F 7E /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVD_EdPd, BxOpcodeGroupSSE_0f7e },
  /* 0F 7F /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVQ_QqPq, BxOpcodeGroupSSE_0f7f },
  /* 0F 80 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JO_Jw },
  /* 0F 81 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JNO_Jw },
  /* 0F 82 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JB_Jw },
  /* 0F 83 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JNB_Jw },
  /* 0F 84 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JZ_Jw },
  /* 0F 85 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JNZ_Jw },
  /* 0F 86 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JBE_Jw },
  /* 0F 87 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JNBE_Jw },
  /* 0F 88 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JS_Jw },
  /* 0F 89 /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JNS_Jw },
  /* 0F 8A /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JP_Jw },
  /* 0F 8B /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JNP_Jw },
  /* 0F 8C /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JL_Jw },
  /* 0F 8D /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JNL_Jw },
  /* 0F 8E /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JLE_Jw },
  /* 0F 8F /w */ { BxImmediate_BrOff16 | BxTraceJCC, BX_IA_JNLE_Jw },
  /* 0F 90 /w */ { 0, BX_IA_SETO_Eb },
  /* 0F 91 /w */ { 0, BX_IA_SETNO_Eb },
  /* 0F 92 /w */ { 0, BX_IA_SETB_Eb },
  /* 0F 93 /w */ { 0, BX_IA_SETNB_Eb },
  /* 0F 94 /w */ { 0, BX_IA_SETZ_Eb },
  /* 0F 95 /w */ { 0, BX_IA_SETNZ_Eb },
  /* 0F 96 /w */ { 0, BX_IA_SETBE_Eb },
  /* 0F 97 /w */ { 0, BX_IA_SETNBE_Eb },
  /* 0F 98 /w */ { 0, BX_IA_SETS_Eb },
  /* 0F 99 /w */ { 0, BX_IA_SETNS_Eb },
  /* 0F 9A /w */ { 0, BX_IA_SETP_Eb },
  /* 0F 9B /w */ { 0, BX_IA_SETNP_Eb },
  /* 0F 9C /w */ { 0, BX_IA_SETL_Eb },
  /* 0F 9D /w */ { 0, BX_IA_SETNL_Eb },
  /* 0F 9E /w */ { 0, BX_IA_SETLE_Eb },
  /* 0F 9F /w */ { 0, BX_IA_SETNLE_Eb },
  /* 0F A0 /w */ { 0, BX_IA_PUSH16_FS },
  /* 0F A1 /w */ { 0, BX_IA_POP16_FS },
  /* 0F A2 /w */ { 0, BX_IA_CPUID },
  /* 0F A3 /w */ { 0, BX_IA_BT_EwGw },
  /* 0F A4 /w */ { BxImmediate_Ib, BX_IA_SHLD_EwGwIb },
  /* 0F A5 /w */ { 0,              BX_IA_SHLD_EwGw   },
  /* 0F A6 /w */ { 0, BX_IA_ERROR }, // CMPXCHG_XBTS not implemented
  /* 0F A7 /w */ { 0, BX_IA_ERROR }, // CMPXCHG_IBTS not implemented
  /* 0F A8 /w */ { 0, BX_IA_PUSH16_GS },
  /* 0F A9 /w */ { 0, BX_IA_POP16_GS },
  /* 0F AA /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_RSM },
  /* 0F AB /w */ { BxLockable, BX_IA_BTS_EwGw },
  /* 0F AC /w */ { BxImmediate_Ib, BX_IA_SHRD_EwGwIb },
  /* 0F AD /w */ { 0,              BX_IA_SHRD_EwGw   },
  /* 0F AE /w */ { BxGroup15, BX_IA_ERROR, BxOpcodeInfoG15 },
  /* 0F AF /w */ { 0, BX_IA_IMUL_GwEw },
  /* 0F B0 /w */ { BxLockable, BX_IA_CMPXCHG_EbGb },
  /* 0F B1 /w */ { BxLockable, BX_IA_CMPXCHG_EwGw },
  /* 0F B2 /w */ { 0, BX_IA_LSS_GwMp },
  /* 0F B3 /w */ { BxLockable, BX_IA_BTR_EwGw },
  /* 0F B4 /w */ { 0, BX_IA_LFS_GwMp },
  /* 0F B5 /w */ { 0, BX_IA_LGS_GwMp },
  /* 0F B6 /w */ { 0, BX_IA_MOVZX_GwEb },
  /* 0F B7 /w */ { 0, BX_IA_MOV_GwEw }, // MOVZX_GwEw
  /* 0F B8 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSEF3, BX_IA_POPCNT_GwEw },
  /* 0F B9 /w */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_UD2B },
  /* 0F BA /w */ { BxGroup8, BX_IA_ERROR, BxOpcodeInfoG8EwIb },
  /* 0F BB /w */ { BxLockable, BX_IA_BTC_EwGw },
  /* 0F BC /w */ { 0, BX_IA_BSF_GwEw },//AO{ BxPrefixSSE, BX_IA_BSF_GwEw, BxOpcodeGroupSSE_TZCNT16 },
  /* 0F BD /w */ { 0, BX_IA_BSR_GwEw },//AO{ BxPrefixSSE, BX_IA_BSR_GwEw, BxOpcodeGroupSSE_LZCNT16 },
  /* 0F BE /w */ { 0, BX_IA_MOVSX_GwEb },
  /* 0F BF /w */ { 0, BX_IA_MOV_GwEw }, // MOVSX_GwEw
  /* 0F C0 /w */ { BxLockable, BX_IA_XADD_EbGb },
  /* 0F C1 /w */ { BxLockable, BX_IA_XADD_EwGw },
  /* 0F C2 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_CMPPS_VpsWpsIb, BxOpcodeGroupSSE_0fc2 },
  /* 0F C3 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVNTI32_MdGd, BxOpcodeGroupSSE_ERR },
  /* 0F C4 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_PINSRW_PqEwIb, BxOpcodeGroupSSE_0fc4 },
  /* 0F C5 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_PEXTRW_GdPqIb, BxOpcodeGroupSSE_0fc5R },
  /* 0F C6 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_SHUFPS_VpsWpsIb, BxOpcodeGroupSSE_0fc6 },
  /* 0F C7 /w */ { BxGroup9, BX_IA_ERROR, BxOpcodeInfoG9w },
  /* 0F C8 /w */ { 0, BX_IA_BSWAP_RX },
  /* 0F C9 /w */ { 0, BX_IA_BSWAP_RX },
  /* 0F CA /w */ { 0, BX_IA_BSWAP_RX },
  /* 0F CB /w */ { 0, BX_IA_BSWAP_RX },
  /* 0F CC /w */ { 0, BX_IA_BSWAP_RX },
  /* 0F CD /w */ { 0, BX_IA_BSWAP_RX },
  /* 0F CE /w */ { 0, BX_IA_BSWAP_RX },
  /* 0F CF /w */ { 0, BX_IA_BSWAP_RX },
  /* 0F D0 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0fd0 },
  /* 0F D1 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRLW_PqQq, BxOpcodeGroupSSE_0fd1 },
  /* 0F D2 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRLD_PqQq, BxOpcodeGroupSSE_0fd2 },
  /* 0F D3 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRLQ_PqQq, BxOpcodeGroupSSE_0fd3 },
  /* 0F D4 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDQ_PqQq, BxOpcodeGroupSSE_0fd4 },
  /* 0F D5 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMULLW_PqQq, BxOpcodeGroupSSE_0fd5 },
  /* 0F D6 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0fd6 },
  /* 0F D7 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMOVMSKB_GdPRq, BxOpcodeGroupSSE_0fd7R },
  /* 0F D8 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBUSB_PqQq, BxOpcodeGroupSSE_0fd8 },
  /* 0F D9 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBUSW_PqQq, BxOpcodeGroupSSE_0fd9 },
  /* 0F DA /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMINUB_PqQq, BxOpcodeGroupSSE_0fda },
  /* 0F DB /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PAND_PqQq, BxOpcodeGroupSSE_0fdb },
  /* 0F DC /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDUSB_PqQq, BxOpcodeGroupSSE_0fdc },
  /* 0F DD /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDUSW_PqQq, BxOpcodeGroupSSE_0fdd },
  /* 0F DE /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMAXUB_PqQq, BxOpcodeGroupSSE_0fde },
  /* 0F DF /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PANDN_PqQq, BxOpcodeGroupSSE_0fdf },
  /* 0F E0 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PAVGB_PqQq, BxOpcodeGroupSSE_0fe0 },
  /* 0F E1 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRAW_PqQq, BxOpcodeGroupSSE_0fe1 },
  /* 0F E2 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRAD_PqQq, BxOpcodeGroupSSE_0fe2 },
  /* 0F E3 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PAVGW_PqQq, BxOpcodeGroupSSE_0fe3 },
  /* 0F E4 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMULHUW_PqQq, BxOpcodeGroupSSE_0fe4 },
  /* 0F E5 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMULHW_PqQq, BxOpcodeGroupSSE_0fe5 },
  /* 0F E6 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0fe6 },
  /* 0F E7 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVNTQ_MqPq, BxOpcodeGroupSSE_0fe7M },
  /* 0F E8 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBSB_PqQq, BxOpcodeGroupSSE_0fe8 },
  /* 0F E9 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBSW_PqQq, BxOpcodeGroupSSE_0fe9 },
  /* 0F EA /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMINSW_PqQq, BxOpcodeGroupSSE_0fea },
  /* 0F EB /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_POR_PqQq, BxOpcodeGroupSSE_0feb },
  /* 0F EC /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDSB_PqQq, BxOpcodeGroupSSE_0fec },
  /* 0F ED /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDSW_PqQq, BxOpcodeGroupSSE_0fed },
  /* 0F EE /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMAXSW_PqQq, BxOpcodeGroupSSE_0fee },
  /* 0F EF /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PXOR_PqQq, BxOpcodeGroupSSE_0fef },
  /* 0F F0 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSEF2, BX_IA_LDDQU_VdqMdq },
  /* 0F F1 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSLLW_PqQq, BxOpcodeGroupSSE_0ff1 },
  /* 0F F2 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSLLD_PqQq, BxOpcodeGroupSSE_0ff2 },
  /* 0F F3 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSLLQ_PqQq, BxOpcodeGroupSSE_0ff3 },
  /* 0F F4 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMULUDQ_PqQq, BxOpcodeGroupSSE_0ff4 },
  /* 0F F5 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMADDWD_PqQq, BxOpcodeGroupSSE_0ff5 },
  /* 0F F6 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSADBW_PqQq, BxOpcodeGroupSSE_0ff6 },
  /* 0F F7 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MASKMOVQ_PqPRq, BxOpcodeGroupSSE_0ff7R },
  /* 0F F8 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBB_PqQq, BxOpcodeGroupSSE_0ff8 },
  /* 0F F9 /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBW_PqQq, BxOpcodeGroupSSE_0ff9 },
  /* 0F FA /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBD_PqQq, BxOpcodeGroupSSE_0ffa },
  /* 0F FB /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBQ_PqQq, BxOpcodeGroupSSE_0ffb },
  /* 0F FC /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDB_PqQq, BxOpcodeGroupSSE_0ffc },
  /* 0F FD /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDW_PqQq, BxOpcodeGroupSSE_0ffd },
  /* 0F FE /w */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDD_PqQq, BxOpcodeGroupSSE_0ffe },
  /* 0F FF /w */ { 0, BX_IA_ERROR },

  // 512 entries for 32bit mode
  /* 00 /d */ { BxLockable, BX_IA_ADD_EbGb },
  /* 01 /d */ { BxLockable, BX_IA_ADD_EdGd },
  /* 02 /d */ { 0, BX_IA_ADD_GbEb },
  /* 03 /d */ { 0, BX_IA_ADD_GdEd },
  /* 04 /d */ { BxImmediate_Ib, BX_IA_ADD_ALIb },
  /* 05 /d */ { BxImmediate_Id, BX_IA_ADD_EAXId },
  /* 06 /d */ { 0, BX_IA_PUSH32_ES },
  /* 07 /d */ { 0, BX_IA_POP32_ES },
  /* 08 /d */ { BxLockable, BX_IA_OR_EbGb },
  /* 09 /d */ { BxLockable, BX_IA_OR_EdGd },
  /* 0A /d */ { 0, BX_IA_OR_GbEb },
  /* 0B /d */ { 0, BX_IA_OR_GdEd },
  /* 0C /d */ { BxImmediate_Ib, BX_IA_OR_ALIb },
  /* 0D /d */ { BxImmediate_Id, BX_IA_OR_EAXId },
  /* 0E /d */ { 0, BX_IA_PUSH32_CS },
  /* 0F /d */ { 0, BX_IA_ERROR }, // 2-byte escape
  /* 10 /d */ { BxLockable, BX_IA_ADC_EbGb },
  /* 11 /d */ { BxLockable, BX_IA_ADC_EdGd },
  /* 12 /d */ { 0, BX_IA_ADC_GbEb },
  /* 13 /d */ { 0, BX_IA_ADC_GdEd },
  /* 14 /d */ { BxImmediate_Ib, BX_IA_ADC_ALIb },
  /* 15 /d */ { BxImmediate_Id, BX_IA_ADC_EAXId },
  /* 16 /d */ { 0, BX_IA_PUSH32_SS },
  /* 17 /d */ { 0, BX_IA_POP32_SS },
  /* 18 /d */ { BxLockable, BX_IA_SBB_EbGb },
  /* 19 /d */ { BxLockable, BX_IA_SBB_EdGd },
  /* 1A /d */ { 0, BX_IA_SBB_GbEb },
  /* 1B /d */ { 0, BX_IA_SBB_GdEd },
  /* 1C /d */ { BxImmediate_Ib, BX_IA_SBB_ALIb },
  /* 1D /d */ { BxImmediate_Id, BX_IA_SBB_EAXId },
  /* 1E /d */ { 0, BX_IA_PUSH32_DS },
  /* 1F /d */ { 0, BX_IA_POP32_DS },
  /* 20 /d */ { BxLockable, BX_IA_AND_EbGb },
  /* 21 /d */ { BxLockable, BX_IA_AND_EdGd },
  /* 22 /d */ { 0, BX_IA_AND_GbEb },
  /* 23 /d */ { 0, BX_IA_AND_GdEd },
  /* 24 /d */ { BxImmediate_Ib, BX_IA_AND_ALIb },
  /* 25 /d */ { BxImmediate_Id, BX_IA_AND_EAXId },
  /* 26 /d */ { 0, BX_IA_ERROR }, // ES:
  /* 27 /d */ { 0, BX_IA_DAA },
  /* 28 /d */ { BxLockable, BX_IA_SUB_EbGb },
  /* 29 /d */ { BxLockable, BX_IA_SUB_EdGd },
  /* 2A /d */ { 0, BX_IA_SUB_GbEb },
  /* 2B /d */ { 0, BX_IA_SUB_GdEd },
  /* 2C /d */ { BxImmediate_Ib, BX_IA_SUB_ALIb },
  /* 2D /d */ { BxImmediate_Id, BX_IA_SUB_EAXId },
  /* 2E /d */ { 0, BX_IA_ERROR }, // CS:
  /* 2F /d */ { 0, BX_IA_DAS },
  /* 30 /d */ { BxLockable, BX_IA_XOR_EbGb },
  /* 31 /d */ { BxLockable, BX_IA_XOR_EdGd },
  /* 32 /d */ { 0, BX_IA_XOR_GbEb },
  /* 33 /d */ { 0, BX_IA_XOR_GdEd },
  /* 34 /d */ { BxImmediate_Ib, BX_IA_XOR_ALIb },
  /* 35 /d */ { BxImmediate_Id, BX_IA_XOR_EAXId },
  /* 36 /d */ { 0, BX_IA_ERROR }, // SS:
  /* 37 /d */ { 0, BX_IA_AAA },
  /* 38 /d */ { 0, BX_IA_CMP_EbGb },
  /* 39 /d */ { 0, BX_IA_CMP_EdGd },
  /* 3A /d */ { 0, BX_IA_CMP_GbEb },
  /* 3B /d */ { 0, BX_IA_CMP_GdEd },
  /* 3C /d */ { BxImmediate_Ib, BX_IA_CMP_ALIb },
  /* 3D /d */ { BxImmediate_Id, BX_IA_CMP_EAXId },
  /* 3E /d */ { 0, BX_IA_ERROR }, // DS:
  /* 3F /d */ { 0, BX_IA_AAS },
  /* 40 /d */ { 0, BX_IA_INC_ERX },
  /* 41 /d */ { 0, BX_IA_INC_ERX },
  /* 42 /d */ { 0, BX_IA_INC_ERX },
  /* 43 /d */ { 0, BX_IA_INC_ERX },
  /* 44 /d */ { 0, BX_IA_INC_ERX },
  /* 45 /d */ { 0, BX_IA_INC_ERX },
  /* 46 /d */ { 0, BX_IA_INC_ERX },
  /* 47 /d */ { 0, BX_IA_INC_ERX },
  /* 48 /d */ { 0, BX_IA_DEC_ERX },
  /* 49 /d */ { 0, BX_IA_DEC_ERX },
  /* 4A /d */ { 0, BX_IA_DEC_ERX },
  /* 4B /d */ { 0, BX_IA_DEC_ERX },
  /* 4C /d */ { 0, BX_IA_DEC_ERX },
  /* 4D /d */ { 0, BX_IA_DEC_ERX },
  /* 4E /d */ { 0, BX_IA_DEC_ERX },
  /* 4F /d */ { 0, BX_IA_DEC_ERX },
  /* 50 /d */ { 0, BX_IA_PUSH_ERX },
  /* 51 /d */ { 0, BX_IA_PUSH_ERX },
  /* 52 /d */ { 0, BX_IA_PUSH_ERX },
  /* 53 /d */ { 0, BX_IA_PUSH_ERX },
  /* 54 /d */ { 0, BX_IA_PUSH_ERX },
  /* 55 /d */ { 0, BX_IA_PUSH_ERX },
  /* 56 /d */ { 0, BX_IA_PUSH_ERX },
  /* 57 /d */ { 0, BX_IA_PUSH_ERX },
  /* 58 /d */ { 0, BX_IA_POP_ERX },
  /* 59 /d */ { 0, BX_IA_POP_ERX },
  /* 5A /d */ { 0, BX_IA_POP_ERX },
  /* 5B /d */ { 0, BX_IA_POP_ERX },
  /* 5C /d */ { 0, BX_IA_POP_ERX },
  /* 5D /d */ { 0, BX_IA_POP_ERX },
  /* 5E /d */ { 0, BX_IA_POP_ERX },
  /* 5F /d */ { 0, BX_IA_POP_ERX },
  /* 60 /d */ { 0, BX_IA_PUSHAD32 },
  /* 61 /d */ { 0, BX_IA_POPAD32 },
  /* 62 /d */ { 0, BX_IA_BOUND_GdMa },
  /* 63 /d */ { 0, BX_IA_ARPL_EwGw },
  /* 64 /d */ { 0, BX_IA_ERROR }, // FS:
  /* 65 /d */ { 0, BX_IA_ERROR }, // GS:
  /* 66 /d */ { 0, BX_IA_ERROR }, // OS:
  /* 67 /d */ { 0, BX_IA_ERROR }, // AS:
  /* 68 /d */ { BxImmediate_Id, BX_IA_PUSH_Id },
  /* 69 /d */ { BxImmediate_Id, BX_IA_IMUL_GdEdId },
  /* 6A /d */ { BxImmediate_Ib_SE, BX_IA_PUSH_Id },
  /* 6B /d */ { BxImmediate_Ib_SE, BX_IA_IMUL_GdEdId },
  /* 6C /d */ { BxRepeatable, BX_IA_REP_INSB_YbDX },
  /* 6D /d */ { BxRepeatable, BX_IA_REP_INSD_YdDX },
  /* 6E /d */ { BxRepeatable, BX_IA_REP_OUTSB_DXXb },
  /* 6F /d */ { BxRepeatable, BX_IA_REP_OUTSD_DXXd },
  /* 70 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JO_Jd },
  /* 71 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNO_Jd },
  /* 72 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JB_Jd },
  /* 73 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNB_Jd },
  /* 74 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JZ_Jd },
  /* 75 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNZ_Jd },
  /* 76 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JBE_Jd },
  /* 77 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNBE_Jd },
  /* 78 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JS_Jd },
  /* 79 /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNS_Jd },
  /* 7A /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JP_Jd },
  /* 7B /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNP_Jd },
  /* 7C /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JL_Jd },
  /* 7D /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNL_Jd },
  /* 7E /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JLE_Jd },
  /* 7F /d */ { BxImmediate_BrOff8 | BxTraceJCC, BX_IA_JNLE_Jd },
  /* 80 /d */ { BxGroup1 | BxImmediate_Ib, BX_IA_ERROR, BxOpcodeInfoG1EbIb },
  /* 81 /d */ { BxGroup1 | BxImmediate_Id, BX_IA_ERROR, BxOpcodeInfoG1Ed },
  /* 82 /d */ { BxGroup1 | BxImmediate_Ib, BX_IA_ERROR, BxOpcodeInfoG1EbIb },
  /* 83 /d */ { BxGroup1 | BxImmediate_Ib_SE, BX_IA_ERROR, BxOpcodeInfoG1Ed },
  /* 84 /d */ { 0, BX_IA_TEST_EbGb },
  /* 85 /d */ { 0, BX_IA_TEST_EdGd },
  /* 86 /d */ { BxLockable, BX_IA_XCHG_EbGb },
  /* 87 /d */ { BxLockable, BX_IA_XCHG_EdGd },
  /* 88 /d */ { 0, BX_IA_MOV_EbGb },
  /* 89 /d */ { 0, BX_IA_MOV32_EdGd },
  /* 8A /d */ { 0, BX_IA_MOV_GbEb },
  /* 8B /d */ { 0, BX_IA_MOV32_GdEd },
  /* 8C /d */ { 0, BX_IA_MOV_EwSw },
  /* 8D /d */ { 0, BX_IA_LEA_GdM },
  /* 8E /d */ { 0, BX_IA_MOV_SwEw },
  /* 8F /d */ { BxGroup1A, BX_IA_ERROR, BxOpcodeInfoG1AEd },
  /* 90 /d */ { 0, BX_IA_NOP },//AO{ BxPrefixSSE, BX_IA_NOP, BxOpcodeGroupSSE_PAUSE },
  /* 91 /d */ { 0, BX_IA_XCHG_ERXEAX },
  /* 92 /d */ { 0, BX_IA_XCHG_ERXEAX },
  /* 93 /d */ { 0, BX_IA_XCHG_ERXEAX },
  /* 94 /d */ { 0, BX_IA_XCHG_ERXEAX },
  /* 95 /d */ { 0, BX_IA_XCHG_ERXEAX },
  /* 96 /d */ { 0, BX_IA_XCHG_ERXEAX },
  /* 97 /d */ { 0, BX_IA_XCHG_ERXEAX },
  /* 98 /d */ { 0, BX_IA_CWDE },
  /* 99 /d */ { 0, BX_IA_CDQ },
  /* 9A /d */ { BxImmediate_Id | BxImmediate_Iw2 | BxTraceEnd, BX_IA_CALL32_Ap },
  /* 9B /d */ { 0, BX_IA_FWAIT },
  /* 9C /d */ { 0, BX_IA_PUSHF_Fd },
  /* 9D /d */ { BxTraceEnd, BX_IA_POPF_Fd },
  /* 9E /d */ { 0, BX_IA_SAHF },
  /* 9F /d */ { 0, BX_IA_LAHF },
  /* A0 /d */ { BxImmediate_O, BX_IA_MOV_ALOd },
  /* A1 /d */ { BxImmediate_O, BX_IA_MOV_EAXOd },
  /* A2 /d */ { BxImmediate_O, BX_IA_MOV_OdAL },
  /* A3 /d */ { BxImmediate_O, BX_IA_MOV_OdEAX },
  /* A4 /d */ { BxRepeatable, BX_IA_REP_MOVSB_XbYb },
  /* A5 /d */ { BxRepeatable, BX_IA_REP_MOVSD_XdYd },
  /* A6 /d */ { BxRepeatable, BX_IA_REP_CMPSB_XbYb },
  /* A7 /d */ { BxRepeatable, BX_IA_REP_CMPSD_XdYd },
  /* A8 /d */ { BxImmediate_Ib, BX_IA_TEST_ALIb },
  /* A9 /d */ { BxImmediate_Id, BX_IA_TEST_EAXId },
  /* AA /d */ { BxRepeatable, BX_IA_REP_STOSB_YbAL },
  /* AB /d */ { BxRepeatable, BX_IA_REP_STOSD_YdEAX },
  /* AC /d */ { BxRepeatable, BX_IA_REP_LODSB_ALXb },
  /* AD /d */ { BxRepeatable, BX_IA_REP_LODSD_EAXXd },
  /* AE /d */ { BxRepeatable, BX_IA_REP_SCASB_ALXb  },
  /* AF /d */ { BxRepeatable, BX_IA_REP_SCASD_EAXXd },
  /* B0 /d */ { BxImmediate_Ib, BX_IA_MOV_RLIb },
  /* B1 /d */ { BxImmediate_Ib, BX_IA_MOV_RLIb },
  /* B2 /d */ { BxImmediate_Ib, BX_IA_MOV_RLIb },
  /* B3 /d */ { BxImmediate_Ib, BX_IA_MOV_RLIb },
  /* B4 /d */ { BxImmediate_Ib, BX_IA_MOV_RHIb },
  /* B5 /d */ { BxImmediate_Ib, BX_IA_MOV_RHIb },
  /* B6 /d */ { BxImmediate_Ib, BX_IA_MOV_RHIb },
  /* B7 /d */ { BxImmediate_Ib, BX_IA_MOV_RHIb },
  /* B8 /d */ { BxImmediate_Id, BX_IA_MOV_ERXId },
  /* B9 /d */ { BxImmediate_Id, BX_IA_MOV_ERXId },
  /* BA /d */ { BxImmediate_Id, BX_IA_MOV_ERXId },
  /* BB /d */ { BxImmediate_Id, BX_IA_MOV_ERXId },
  /* BC /d */ { BxImmediate_Id, BX_IA_MOV_ERXId },
  /* BD /d */ { BxImmediate_Id, BX_IA_MOV_ERXId },
  /* BE /d */ { BxImmediate_Id, BX_IA_MOV_ERXId },
  /* BF /d */ { BxImmediate_Id, BX_IA_MOV_ERXId },
  /* C0 /d */ { BxGroup2 | BxImmediate_Ib, BX_IA_ERROR, BxOpcodeInfoG2EbIb },
  /* C1 /d */ { BxGroup2 | BxImmediate_Ib, BX_IA_ERROR, BxOpcodeInfoG2EdIb },
  /* C2 /d */ { BxImmediate_Iw | BxTraceEnd, BX_IA_RETnear32_Iw },
  /* C3 /d */ { BxTraceEnd,                  BX_IA_RETnear32 },
  /* C4 /d */ { BxPrefixVEX, BX_IA_LES_GdMp },
  /* C5 /d */ { BxPrefixVEX, BX_IA_LDS_GdMp },
  /* C6 /d */ { BxGroup11, BX_IA_ERROR, BxOpcodeInfoG11Eb },
  /* C7 /d */ { BxGroup11, BX_IA_ERROR, BxOpcodeInfoG11Ed },
  /* C8 /d */ { BxImmediate_Iw | BxImmediate_Ib2, BX_IA_ENTER32_IwIb },
  /* C9 /d */ { 0, BX_IA_LEAVE32 },
  /* CA /d */ { BxImmediate_Iw | BxTraceEnd, BX_IA_RETfar32_Iw },
  /* CB /d */ { BxTraceEnd,                  BX_IA_RETfar32 },
  /* CC /d */ { BxTraceEnd, BX_IA_INT3 },
  /* CD /d */ { BxImmediate_Ib | BxTraceEnd, BX_IA_INT_Ib },
  /* CE /d */ { BxTraceEnd, BX_IA_INTO },
  /* CF /d */ { BxTraceEnd, BX_IA_IRET32 },
  /* D0 /d */ { BxGroup2 | BxImmediate_I1, BX_IA_ERROR, BxOpcodeInfoG2EbIb },
  /* D1 /d */ { BxGroup2 | BxImmediate_I1, BX_IA_ERROR, BxOpcodeInfoG2EdIb },
  /* D2 /d */ { BxGroup2, BX_IA_ERROR, BxOpcodeInfoG2Eb },
  /* D3 /d */ { BxGroup2, BX_IA_ERROR, BxOpcodeInfoG2Ed },
  /* D4 /d */ { BxImmediate_Ib, BX_IA_AAM },
  /* D5 /d */ { BxImmediate_Ib, BX_IA_AAD },
  /* D6 /d */ { 0, BX_IA_SALC },
  /* D7 /d */ { 0, BX_IA_XLAT },
#if BX_SUPPORT_FPU
  /* D8 /d */ { BxGroupFP, BX_IA_ERROR, BxOpcodeInfo_FPGroupD8 },
  /* D9 /d */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointD9 },
  /* DA /d */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointDA },
  /* DB /d */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointDB },
  /* DC /d */ { BxGroupFP, BX_IA_ERROR, BxOpcodeInfo_FPGroupDC },
  /* DD /d */ { BxGroupFP, BX_IA_ERROR, BxOpcodeInfo_FPGroupDD },
  /* DE /d */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointDE },
  /* DF /d */ { BxFPEscape, BX_IA_ERROR, BxOpcodeInfo_FloatingPointDF },
#else
  /* D8 /d */ { 0, BX_IA_FPU_ESC },
  /* D9 /d */ { 0, BX_IA_FPU_ESC },
  /* DA /d */ { 0, BX_IA_FPU_ESC },
  /* DB /d */ { 0, BX_IA_FPU_ESC },
  /* DC /d */ { 0, BX_IA_FPU_ESC },
  /* DD /d */ { 0, BX_IA_FPU_ESC },
  /* DE /d */ { 0, BX_IA_FPU_ESC },
  /* DF /d */ { 0, BX_IA_FPU_ESC },
#endif
  /* E0 /d */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_LOOPNE32_Jb },
  /* E1 /d */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_LOOPE32_Jb },
  /* E2 /d */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_LOOP32_Jb },
  /* E3 /d */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_JECXZ_Jb },
  /* E4 /d */ { BxImmediate_Ib, BX_IA_IN_ALIb },
  /* E5 /d */ { BxImmediate_Ib, BX_IA_IN_EAXIb },
  /* E6 /d */ { BxImmediate_Ib, BX_IA_OUT_IbAL },
  /* E7 /d */ { BxImmediate_Ib, BX_IA_OUT_IbEAX },
  /* E8 /d */ { BxImmediate_BrOff32 | BxTraceEnd, BX_IA_CALL_Jd },
  /* E9 /d */ { BxImmediate_BrOff32 | BxTraceEnd, BX_IA_JMP_Jd },
  /* EA /d */ { BxImmediate_Id | BxImmediate_Iw2 | BxTraceEnd, BX_IA_JMP_Ap },
  /* EB /d */ { BxImmediate_BrOff8 | BxTraceEnd, BX_IA_JMP_Jd },
  /* EC /d */ { 0, BX_IA_IN_ALDX },
  /* ED /d */ { 0, BX_IA_IN_EAXDX },
  /* EE /d */ { 0, BX_IA_OUT_DXAL },
  /* EF /d */ { 0, BX_IA_OUT_DXEAX },
  /* F0 /d */ { 0, BX_IA_ERROR }, // LOCK:
  /* F1 /d */ { BxTraceEnd, BX_IA_INT1 },
  /* F2 /d */ { 0, BX_IA_ERROR }, // REPNE/REPNZ
  /* F3 /d */ { 0, BX_IA_ERROR }, // REP,REPE/REPZ
  /* F4 /d */ { BxTraceEnd, BX_IA_HLT },
  /* F5 /d */ { 0, BX_IA_CMC },
  /* F6 /d */ { BxGroup3, BX_IA_ERROR, BxOpcodeInfoG3Eb },
  /* F7 /d */ { BxGroup3, BX_IA_ERROR, BxOpcodeInfoG3Ed },
  /* F8 /d */ { 0, BX_IA_CLC },
  /* F9 /d */ { 0, BX_IA_STC },
  /* FA /d */ { 0, BX_IA_CLI },
  /* FB /d */ { 0, BX_IA_STI },
  /* FC /d */ { 0, BX_IA_CLD },
  /* FD /d */ { 0, BX_IA_STD },
  /* FE /d */ { BxGroup4, BX_IA_ERROR, BxOpcodeInfoG4 },
  /* FF /d */ { BxGroup5, BX_IA_ERROR, BxOpcodeInfoG5d },

  /* 0F 00 /d */ { BxGroup6, BX_IA_ERROR, BxOpcodeInfoG6 },
  /* 0F 01 /d */ { BxGroup7, BX_IA_ERROR, BxOpcodeInfoG7 },
  /* 0F 02 /d */ { 0, BX_IA_LAR_GvEw },
  /* 0F 03 /d */ { 0, BX_IA_LSL_GvEw },
  /* 0F 04 /d */ { 0, BX_IA_ERROR },
  /* 0F 05 /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_SYSCALL_LEGACY },
  /* 0F 06 /d */ { BxTraceEnd, BX_IA_CLTS },
  /* 0F 07 /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_SYSRET_LEGACY },
  /* 0F 08 /d */ { BxTraceEnd, BX_IA_INVD },
  /* 0F 09 /d */ { 0, BX_IA_WBINVD },
  /* 0F 0A /d */ { 0, BX_IA_ERROR },
  /* 0F 0B /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_UD2A },
  /* 0F 0C /d */ { 0, BX_IA_ERROR },
  /* 0F 0D /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_PREFETCHW },          // 3DNow! PREFETCHW on AMD, NOP on Intel
  /* 0F 0E /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_FEMMS },              // 3DNow! FEMMS
  /* 0F 0F /d */ { 0, BX_IA_ERROR },//AO{ BxImmediate_Ib, BX_IA_ERROR }, // 3DNow! Opcode Table
  /* 0F 10 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVUPS_VpsWps, BxOpcodeGroupSSE_0f10 },
  /* 0F 11 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVUPS_WpsVps, BxOpcodeGroupSSE_0f11 },
  /* 0F 12 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVLPS_VpsMq, BxOpcodeGroupSSE_0f12 },
  /* 0F 13 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVLPS_MqVps, BxOpcodeGroupSSE_0f13M },
  /* 0F 14 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_UNPCKLPS_VpsWdq, BxOpcodeGroupSSE_0f14 },
  /* 0F 15 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_UNPCKHPS_VpsWdq, BxOpcodeGroupSSE_0f15 },
  /* 0F 16 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVHPS_VpsMq, BxOpcodeGroupSSE_0f16 },
  /* 0F 17 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVHPS_MqVps, BxOpcodeGroupSSE_0f17M },
#if BX_CPU_LEVEL >= 6
  /* 0F 18 /d */ { 0, BX_IA_PREFETCH }, // opcode group G16, PREFETCH hints
  /* 0F 19 /d */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1A /d */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1B /d */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1C /d */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1D /d */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1E /d */ { 0, BX_IA_NOP },      // multi-byte NOP
  /* 0F 1F /d */ { 0, BX_IA_NOP },      // multi-byte NOP
#else
  /* 0F 18 /d */ { 0, BX_IA_ERROR },
  /* 0F 19 /d */ { 0, BX_IA_ERROR },
  /* 0F 1A /d */ { 0, BX_IA_ERROR },
  /* 0F 1B /d */ { 0, BX_IA_ERROR },
  /* 0F 1C /d */ { 0, BX_IA_ERROR },
  /* 0F 1D /d */ { 0, BX_IA_ERROR },
  /* 0F 1E /d */ { 0, BX_IA_ERROR },
  /* 0F 1F /d */ { 0, BX_IA_ERROR },
#endif
  /* 0F 20 /d */ { BxGroupN, BX_IA_ERROR, BxOpcodeInfoMOV_RdCd },
  /* 0F 21 /d */ { 0, BX_IA_MOV_RdDd },
  /* 0F 22 /d */ { BxGroupN, BX_IA_ERROR, BxOpcodeInfoMOV_CdRd },
  /* 0F 23 /d */ { BxTraceEnd, BX_IA_MOV_DdRd },
  /* 0F 24 /d */ { 0, BX_IA_ERROR }, // BX_IA_MOV_RdTd not implemented
  /* 0F 25 /d */ { 0, BX_IA_ERROR },
  /* 0F 26 /d */ { 0, BX_IA_ERROR }, // BX_IA_MOV_TdRd not implemented
  /* 0F 27 /d */ { 0, BX_IA_ERROR },
  /* 0F 28 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVAPS_VpsWps, BxOpcodeGroupSSE_0f28 },
  /* 0F 29 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVAPS_WpsVps, BxOpcodeGroupSSE_0f29 },
  /* 0F 2A /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTPI2PS_VpsQq, BxOpcodeGroupSSE_0f2a },
  /* 0F 2B /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVNTPS_MpsVps, BxOpcodeGroupSSE_0f2bM },
  /* 0F 2C /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTTPS2PI_PqWps, BxOpcodeGroupSSE_0f2c },
  /* 0F 2D /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTPS2PI_PqWps, BxOpcodeGroupSSE_0f2d },
  /* 0F 2E /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_UCOMISS_VssWss, BxOpcodeGroupSSE_0f2e },
  /* 0F 2F /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_COMISS_VpsWps, BxOpcodeGroupSSE_0f2f },
  /* 0F 30 /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_WRMSR },
  /* 0F 31 /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_RDTSC }, // end trace to avoid multiple TSC samples in one cycle
  /* 0F 32 /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_RDMSR }, // end trace to avoid multiple TSC samples in one cycle
  /* 0F 33 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_RDPMC },
  /* 0F 34 /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_SYSENTER },
  /* 0F 35 /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_SYSEXIT },
  /* 0F 36 /d */ { 0, BX_IA_ERROR },
  /* 0F 37 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_GETSEC },
#if BX_CPU_LEVEL >= 6
  /* 0F 38 /d */ { Bx3ByteOp, BX_IA_ERROR, BxOpcode3ByteTable0f38 }, // 3-byte escape
#else
  /* 0F 38 /d */ { 0, BX_IA_ERROR },
#endif
  /* 0F 39 /d */ { 0, BX_IA_ERROR },
#if BX_CPU_LEVEL >= 6
  /* 0F 3A /d */ { Bx3ByteOp | BxImmediate_Ib, BX_IA_ERROR, BxOpcode3ByteTable0f3a }, // 3-byte escape
#else
  /* 0F 3A /d */ { 0, BX_IA_ERROR },
#endif
  /* 0F 3B /d */ { 0, BX_IA_ERROR },
  /* 0F 3C /d */ { 0, BX_IA_ERROR },
  /* 0F 3D /d */ { 0, BX_IA_ERROR },
  /* 0F 3E /d */ { 0, BX_IA_ERROR },
  /* 0F 3F /d */ { 0, BX_IA_ERROR },
  /* 0F 40 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVO_GdEd },
  /* 0F 41 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNO_GdEd },
  /* 0F 42 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVB_GdEd },
  /* 0F 43 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNB_GdEd },
  /* 0F 44 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVZ_GdEd },
  /* 0F 45 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNZ_GdEd },
  /* 0F 46 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVBE_GdEd },
  /* 0F 47 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNBE_GdEd },
  /* 0F 48 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVS_GdEd },
  /* 0F 49 /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNS_GdEd },
  /* 0F 4A /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVP_GdEd },
  /* 0F 4B /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNP_GdEd },
  /* 0F 4C /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVL_GdEd },
  /* 0F 4D /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNL_GdEd },
  /* 0F 4E /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVLE_GdEd },
  /* 0F 4F /d */ { 0, BX_IA_ERROR },//AO{ 0, BX_IA_CMOVNLE_GdEd },
  /* 0F 50 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVMSKPS_GdVRps, BxOpcodeGroupSSE_0f50R },
  /* 0F 51 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_SQRTPS_VpsWps, BxOpcodeGroupSSE_0f51 },
  /* 0F 52 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_RSQRTPS_VpsWps, BxOpcodeGroupSSE_0f52 },
  /* 0F 53 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_RCPPS_VpsWps, BxOpcodeGroupSSE_0f53 },
  /* 0F 54 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ANDPS_VpsWps, BxOpcodeGroupSSE_0f54 },
  /* 0F 55 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ANDNPS_VpsWps, BxOpcodeGroupSSE_0f55 },
  /* 0F 56 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ORPS_VpsWps, BxOpcodeGroupSSE_0f56 },
  /* 0F 57 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_XORPS_VpsWps, BxOpcodeGroupSSE_0f57 },
  /* 0F 58 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ADDPS_VpsWps, BxOpcodeGroupSSE_0f58 },
  /* 0F 59 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MULPS_VpsWps, BxOpcodeGroupSSE_0f59 },
  /* 0F 5A /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTPS2PD_VpdWps, BxOpcodeGroupSSE_0f5a },
  /* 0F 5B /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_CVTDQ2PS_VpsWdq, BxOpcodeGroupSSE_0f5b },
  /* 0F 5C /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_SUBPS_VpsWps, BxOpcodeGroupSSE_0f5c },
  /* 0F 5D /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MINPS_VpsWps, BxOpcodeGroupSSE_0f5d },
  /* 0F 5E /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_DIVPS_VpsWps, BxOpcodeGroupSSE_0f5e },
  /* 0F 5F /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MAXPS_VpsWps, BxOpcodeGroupSSE_0f5f },
  /* 0F 60 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKLBW_PqQd, BxOpcodeGroupSSE_0f60 },
  /* 0F 61 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKLWD_PqQd, BxOpcodeGroupSSE_0f61 },
  /* 0F 62 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKLDQ_PqQd, BxOpcodeGroupSSE_0f62 },
  /* 0F 63 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PACKSSWB_PqQq, BxOpcodeGroupSSE_0f63 },
  /* 0F 64 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPGTB_PqQq, BxOpcodeGroupSSE_0f64 },
  /* 0F 65 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPGTW_PqQq, BxOpcodeGroupSSE_0f65 },
  /* 0F 66 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPGTD_PqQq, BxOpcodeGroupSSE_0f66 },
  /* 0F 67 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PACKUSWB_PqQq, BxOpcodeGroupSSE_0f67 },
  /* 0F 68 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKHBW_PqQq, BxOpcodeGroupSSE_0f68 },
  /* 0F 69 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKHWD_PqQq, BxOpcodeGroupSSE_0f69 },
  /* 0F 6A /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PUNPCKHDQ_PqQq, BxOpcodeGroupSSE_0f6a },
  /* 0F 6B /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PACKSSDW_PqQq, BxOpcodeGroupSSE_0f6b },
  /* 0F 6C /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE66, BX_IA_PUNPCKLQDQ_VdqWdq },
  /* 0F 6D /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE66, BX_IA_PUNPCKHQDQ_VdqWdq },
  /* 0F 6E /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVD_PqEd, BxOpcodeGroupSSE_0f6e },
  /* 0F 6F /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVQ_PqQq, BxOpcodeGroupSSE_0f6f },
  /* 0F 70 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_PSHUFW_PqQqIb, BxOpcodeGroupSSE_0f70 },
  /* 0F 71 /d */ { 0, BX_IA_ERROR },//AO{ BxGroup12, BX_IA_ERROR, BxOpcodeInfoG12R },
  /* 0F 72 /d */ { 0, BX_IA_ERROR },//AO{ BxGroup13, BX_IA_ERROR, BxOpcodeInfoG13R },
  /* 0F 73 /d */ { 0, BX_IA_ERROR },//AO{ BxGroup14, BX_IA_ERROR, BxOpcodeInfoG14R },
  /* 0F 74 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPEQB_PqQq, BxOpcodeGroupSSE_0f74 },
  /* 0F 75 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPEQW_PqQq, BxOpcodeGroupSSE_0f75 },
  /* 0F 76 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PCMPEQD_PqQq, BxOpcodeGroupSSE_0f76 },
  /* 0F 77 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_EMMS, BxOpcodeGroupSSE_ERR },
  /* 0F 78 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_VMREAD_EdGd, BxOpcodeGroupSSE4A_0f78 },
  /* 0F 79 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_VMWRITE_GdEd, BxOpcodeGroupSSE4A_0f79 },
  /* 0F 7A /d */ { 0, BX_IA_ERROR },
  /* 0F 7B /d */ { 0, BX_IA_ERROR },
  /* 0F 7C /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0f7c },
  /* 0F 7D /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0f7d },
  /* 0F 7E /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVD_EdPd, BxOpcodeGroupSSE_0f7e },
  /* 0F 7F /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVQ_QqPq, BxOpcodeGroupSSE_0f7f },
  /* 0F 80 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JO_Jd },
  /* 0F 81 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JNO_Jd },
  /* 0F 82 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JB_Jd },
  /* 0F 83 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JNB_Jd },
  /* 0F 84 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JZ_Jd },
  /* 0F 85 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JNZ_Jd },
  /* 0F 86 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JBE_Jd },
  /* 0F 87 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JNBE_Jd },
  /* 0F 88 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JS_Jd },
  /* 0F 89 /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JNS_Jd },
  /* 0F 8A /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JP_Jd },
  /* 0F 8B /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JNP_Jd },
  /* 0F 8C /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JL_Jd },
  /* 0F 8D /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JNL_Jd },
  /* 0F 8E /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JLE_Jd },
  /* 0F 8F /d */ { BxImmediate_BrOff32 | BxTraceJCC, BX_IA_JNLE_Jd },
  /* 0F 90 /d */ { 0, BX_IA_SETO_Eb },
  /* 0F 91 /d */ { 0, BX_IA_SETNO_Eb },
  /* 0F 92 /d */ { 0, BX_IA_SETB_Eb },
  /* 0F 93 /d */ { 0, BX_IA_SETNB_Eb },
  /* 0F 94 /d */ { 0, BX_IA_SETZ_Eb },
  /* 0F 95 /d */ { 0, BX_IA_SETNZ_Eb },
  /* 0F 96 /d */ { 0, BX_IA_SETBE_Eb },
  /* 0F 97 /d */ { 0, BX_IA_SETNBE_Eb },
  /* 0F 98 /d */ { 0, BX_IA_SETS_Eb },
  /* 0F 99 /d */ { 0, BX_IA_SETNS_Eb },
  /* 0F 9A /d */ { 0, BX_IA_SETP_Eb },
  /* 0F 9B /d */ { 0, BX_IA_SETNP_Eb },
  /* 0F 9C /d */ { 0, BX_IA_SETL_Eb },
  /* 0F 9D /d */ { 0, BX_IA_SETNL_Eb },
  /* 0F 9E /d */ { 0, BX_IA_SETLE_Eb },
  /* 0F 9F /d */ { 0, BX_IA_SETNLE_Eb },
  /* 0F A0 /d */ { 0, BX_IA_PUSH32_FS },
  /* 0F A1 /d */ { 0, BX_IA_POP32_FS },
  /* 0F A2 /d */ { 0, BX_IA_CPUID },
  /* 0F A3 /d */ { 0, BX_IA_BT_EdGd },
  /* 0F A4 /d */ { BxImmediate_Ib, BX_IA_SHLD_EdGdIb },
  /* 0F A5 /d */ { 0,              BX_IA_SHLD_EdGd   },
  /* 0F A6 /d */ { 0, BX_IA_ERROR }, // CMPXCHG_XBTS not implemented
  /* 0F A7 /d */ { 0, BX_IA_ERROR }, // CMPXCHG_IBTS not implemented
  /* 0F A8 /d */ { 0, BX_IA_PUSH32_GS },
  /* 0F A9 /d */ { 0, BX_IA_POP32_GS },
  /* 0F AA /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_RSM },
  /* 0F AB /d */ { BxLockable, BX_IA_BTS_EdGd },
  /* 0F AC /d */ { BxImmediate_Ib, BX_IA_SHRD_EdGdIb },
  /* 0F AD /d */ { 0,              BX_IA_SHRD_EdGd   },
  /* 0F AE /d */ { BxGroup15, BX_IA_ERROR, BxOpcodeInfoG15 },
  /* 0F AF /d */ { 0, BX_IA_IMUL_GdEd },
  /* 0F B0 /d */ { BxLockable, BX_IA_CMPXCHG_EbGb },
  /* 0F B1 /d */ { BxLockable, BX_IA_CMPXCHG_EdGd },
  /* 0F B2 /d */ { 0, BX_IA_LSS_GdMp },
  /* 0F B3 /d */ { BxLockable, BX_IA_BTR_EdGd },
  /* 0F B4 /d */ { 0, BX_IA_LFS_GdMp },
  /* 0F B5 /d */ { 0, BX_IA_LGS_GdMp },
  /* 0F B6 /d */ { 0, BX_IA_MOVZX_GdEb },
  /* 0F B7 /d */ { 0, BX_IA_MOVZX_GdEw },
  /* 0F B8 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSEF3, BX_IA_POPCNT_GdEd },
  /* 0F B9 /d */ { 0, BX_IA_ERROR },//AO{ BxTraceEnd, BX_IA_UD2B },
  /* 0F BA /d */ { BxGroup8, BX_IA_ERROR, BxOpcodeInfoG8EdIb },
  /* 0F BB /d */ { BxLockable, BX_IA_BTC_EdGd },
  /* 0F BC /d */ { 0, BX_IA_BSF_GdEd },//AO{ BxPrefixSSE, BX_IA_BSF_GdEd, BxOpcodeGroupSSE_TZCNT32 },
  /* 0F BD /d */ { 0, BX_IA_BSR_GdEd },//AO{ BxPrefixSSE, BX_IA_BSR_GdEd, BxOpcodeGroupSSE_LZCNT32 },
  /* 0F BE /d */ { 0, BX_IA_MOVSX_GdEb },
  /* 0F BF /d */ { 0, BX_IA_MOVSX_GdEw },
  /* 0F C0 /d */ { BxLockable, BX_IA_XADD_EbGb },
  /* 0F C1 /d */ { BxLockable, BX_IA_XADD_EdGd },
  /* 0F C2 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_CMPPS_VpsWpsIb, BxOpcodeGroupSSE_0fc2 },
  /* 0F C3 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVNTI32_MdGd, BxOpcodeGroupSSE_ERR },
  /* 0F C4 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_PINSRW_PqEwIb, BxOpcodeGroupSSE_0fc4 },
  /* 0F C5 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_PEXTRW_GdPqIb, BxOpcodeGroupSSE_0fc5R },
  /* 0F C6 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE | BxImmediate_Ib, BX_IA_SHUFPS_VpsWpsIb, BxOpcodeGroupSSE_0fc6 },
  /* 0F C7 /d */ { BxGroup9, BX_IA_ERROR, BxOpcodeInfoG9d },
  /* 0F C8 /d */ { 0, BX_IA_BSWAP_ERX },
  /* 0F C9 /d */ { 0, BX_IA_BSWAP_ERX },
  /* 0F CA /d */ { 0, BX_IA_BSWAP_ERX },
  /* 0F CB /d */ { 0, BX_IA_BSWAP_ERX },
  /* 0F CC /d */ { 0, BX_IA_BSWAP_ERX },
  /* 0F CD /d */ { 0, BX_IA_BSWAP_ERX },
  /* 0F CE /d */ { 0, BX_IA_BSWAP_ERX },
  /* 0F CF /d */ { 0, BX_IA_BSWAP_ERX },
  /* 0F D0 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0fd0 },
  /* 0F D1 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRLW_PqQq, BxOpcodeGroupSSE_0fd1 },
  /* 0F D2 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRLD_PqQq, BxOpcodeGroupSSE_0fd2 },
  /* 0F D3 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRLQ_PqQq, BxOpcodeGroupSSE_0fd3 },
  /* 0F D4 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDQ_PqQq, BxOpcodeGroupSSE_0fd4 },
  /* 0F D5 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMULLW_PqQq, BxOpcodeGroupSSE_0fd5 },
  /* 0F D6 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0fd6 },
  /* 0F D7 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMOVMSKB_GdPRq, BxOpcodeGroupSSE_0fd7R },
  /* 0F D8 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBUSB_PqQq, BxOpcodeGroupSSE_0fd8 },
  /* 0F D9 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBUSW_PqQq, BxOpcodeGroupSSE_0fd9 },
  /* 0F DA /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMINUB_PqQq, BxOpcodeGroupSSE_0fda },
  /* 0F DB /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PAND_PqQq, BxOpcodeGroupSSE_0fdb },
  /* 0F DC /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDUSB_PqQq, BxOpcodeGroupSSE_0fdc },
  /* 0F DD /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDUSW_PqQq, BxOpcodeGroupSSE_0fdd },
  /* 0F DE /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMAXUB_PqQq, BxOpcodeGroupSSE_0fde },
  /* 0F DF /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PANDN_PqQq, BxOpcodeGroupSSE_0fdf },
  /* 0F E0 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PAVGB_PqQq, BxOpcodeGroupSSE_0fe0 },
  /* 0F E1 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRAW_PqQq, BxOpcodeGroupSSE_0fe1 },
  /* 0F E2 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSRAD_PqQq, BxOpcodeGroupSSE_0fe2 },
  /* 0F E3 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PAVGW_PqQq, BxOpcodeGroupSSE_0fe3 },
  /* 0F E4 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMULHUW_PqQq, BxOpcodeGroupSSE_0fe4 },
  /* 0F E5 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMULHW_PqQq, BxOpcodeGroupSSE_0fe5 },
  /* 0F E6 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_ERROR, BxOpcodeGroupSSE_0fe6 },
  /* 0F E7 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MOVNTQ_MqPq, BxOpcodeGroupSSE_0fe7M },
  /* 0F E8 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBSB_PqQq, BxOpcodeGroupSSE_0fe8 },
  /* 0F E9 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBSW_PqQq, BxOpcodeGroupSSE_0fe9 },
  /* 0F EA /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMINSW_PqQq, BxOpcodeGroupSSE_0fea },
  /* 0F EB /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_POR_PqQq, BxOpcodeGroupSSE_0feb },
  /* 0F EC /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDSB_PqQq, BxOpcodeGroupSSE_0fec },
  /* 0F ED /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDSW_PqQq, BxOpcodeGroupSSE_0fed },
  /* 0F EE /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMAXSW_PqQq, BxOpcodeGroupSSE_0fee },
  /* 0F EF /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PXOR_PqQq, BxOpcodeGroupSSE_0fef },
  /* 0F F0 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSEF2, BX_IA_LDDQU_VdqMdq },
  /* 0F F1 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSLLW_PqQq, BxOpcodeGroupSSE_0ff1 },
  /* 0F F2 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSLLD_PqQq, BxOpcodeGroupSSE_0ff2 },
  /* 0F F3 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSLLQ_PqQq, BxOpcodeGroupSSE_0ff3 },
  /* 0F F4 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMULUDQ_PqQq, BxOpcodeGroupSSE_0ff4 },
  /* 0F F5 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PMADDWD_PqQq, BxOpcodeGroupSSE_0ff5 },
  /* 0F F6 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSADBW_PqQq, BxOpcodeGroupSSE_0ff6 },
  /* 0F F7 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_MASKMOVQ_PqPRq, BxOpcodeGroupSSE_0ff7R },
  /* 0F F8 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBB_PqQq, BxOpcodeGroupSSE_0ff8 },
  /* 0F F9 /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBW_PqQq, BxOpcodeGroupSSE_0ff9 },
  /* 0F FA /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBD_PqQq, BxOpcodeGroupSSE_0ffa },
  /* 0F FB /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PSUBQ_PqQq, BxOpcodeGroupSSE_0ffb },
  /* 0F FC /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDB_PqQq, BxOpcodeGroupSSE_0ffc },
  /* 0F FD /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDW_PqQq, BxOpcodeGroupSSE_0ffd },
  /* 0F FE /d */ { 0, BX_IA_ERROR },//AO{ BxPrefixSSE, BX_IA_PADDD_PqQq, BxOpcodeGroupSSE_0ffe },
  /* 0F FF /d */ { 0, BX_IA_ERROR }
};

//AO start
static const BxOpcodeInfo_t BxOpcodeGroupSSE_ERR[3] = {
  /* 66 */ { 0, BX_IA_ERROR },
  /* F3 */ { 0, BX_IA_ERROR },
  /* F2 */ { 0, BX_IA_ERROR }
};
//AO end

  int BX_CPP_AttrRegparmN(3)
BX_CPU_C::fetchDecode32(const Bit8u *iptr, bxInstruction_c *i, unsigned remainingInPage)
{
//AO start
printf("#i:");
for(int iii=0; iii<16; iii++) printf(" %02x", iptr[iii]);
printf("\n");
//AO end
  if (remainingInPage > 15) remainingInPage = 15;

  unsigned remain = remainingInPage; // remain must be at least 1
  bx_bool is_32, lock=0;
  unsigned b1, b2 = 0, os_32, ia_opcode = 0;
  unsigned rm = 0, mod=0, nnn=0, mod_mem = 0, rep = 0;
  unsigned seg = BX_SEG_REG_DS, seg_override = BX_SEG_REG_NULL;

#define SSE_PREFIX_NONE 0
#define SSE_PREFIX_66   1
#define SSE_PREFIX_F3   2
#define SSE_PREFIX_F2   3
  unsigned sse_prefix = SSE_PREFIX_NONE;

#if BX_SUPPORT_AVX
  int had_vex = 0, had_xop = 0, use_vvv = 0, vvv = -1;
  bx_bool vex_w = 0, vex_l = 0;
#endif

  os_32 = is_32 =
    BX_CPU_THIS_PTR sregs[BX_SEG_REG_CS].cache.u.segment.d_b;

  i->ResolveModrm = 0;
  i->init(/*os32*/ is_32,  /*as32*/ is_32,
          /*os64*/     0,  /*as64*/     0);

fetch_b1:
  b1 = *iptr++;
  remain--;

  switch (b1) {
    case 0x0f: // 2-byte escape
      if (remain != 0) {
        remain--;
        b1 = 0x100 | *iptr++;
        break;
      }
      return(-1);
    case 0x66: // OpSize
      os_32 = !is_32;
      if(!sse_prefix) sse_prefix = SSE_PREFIX_66;
      i->setOs32B(os_32);
      if (remain != 0) {
        goto fetch_b1;
      }
      return(-1);
    case 0x67: // AddrSize
      i->setAs32B(!is_32);
      if (remain != 0) {
        goto fetch_b1;
      }
      return(-1);
    case 0xf2: // REPNE/REPNZ
    case 0xf3: // REP/REPE/REPZ
      sse_prefix = (b1 & 3) ^ 1;
      rep = b1 & 3;
      if (remain != 0) {
        goto fetch_b1;
      }
      return(-1);
    case 0x26: // ES:
    case 0x2e: // CS:
    case 0x36: // SS:
    case 0x3e: // DS:
      seg_override = (b1 >> 3) & 3;
      if (remain != 0) {
        goto fetch_b1;
      }
      return(-1);
    case 0x64: // FS:
    case 0x65: // GS:
      seg_override = (b1 & 0xf);
      if (remain != 0) {
        goto fetch_b1;
      }
      return(-1);
    case 0xf0: // LOCK:
      lock = 1;
      if (remain != 0) {
        goto fetch_b1;
      }
      return(-1);
    default:
      break;
  }
//AO start
i->bochs486_opcode = b1;
i->bochs486_lock = lock;
i->bochs486_modregrm = 0;
i->bochs486_rep = rep;
//AO end
  i->modRMForm.Id = 0;

  unsigned index = b1 + (os_32 << 9); // *512

  unsigned attr = BxOpcodeInfo32[index].Attr;

  bx_bool has_modrm = 0;

#if BX_SUPPORT_AVX
  if ((attr & BxGroupX) == BxPrefixVEX && (*iptr & 0xc0) == 0xc0) {
    // VEX
    had_vex = 1;
    if (sse_prefix) had_vex = -1;
    if (! protected_mode()) had_vex = -1;
    unsigned vex, vex_opcext = 1;

    if (remain != 0) {
      remain--;
      vex = *iptr++;
    }
    else
      return(-1);

    if (b1 == 0xc4) {
      // decode 3-byte VEX prefix
      vex_opcext = vex & 0x1f;
      if (remain != 0) {
        remain--;
        vex = *iptr++;  // fetch VEX3
      }
      else
        return(-1);

      vex_w = (vex >> 7) & 0x1;
    }

    vvv = 15 - ((vex >> 3) & 0xf);
    vex_l = (vex >> 2) & 0x1;
    i->setVL(BX_VL128 + vex_l);
    sse_prefix = vex & 0x3;

    if (remain != 0) {
      remain--;
      b1 = *iptr++; // fetch new b1
    }
    else
      return(-1);

    b1 += 256 * vex_opcext;
    if (b1 < 256 || b1 >= 1024) had_vex = -1;
    else {
      if (b1 >= 512)
        has_modrm = 1;
      else
        has_modrm = BxOpcodeHasModrm32[b1];
    }
  }
  else if (b1 == 0x8f && (*iptr & 0xc8) == 0xc8) {
    // 3 byte XOP prefix
    had_xop = 1;
    if (! protected_mode()) had_xop = -1;
    unsigned vex;

    if (remain != 0) {
      remain--;
      vex = *iptr++; // fetch XOP2
    }
    else
      return(-1);

    unsigned xop_opcext = (vex & 0x1f) - 8;
    if (xop_opcext >= 3)
      had_xop = -1;

    if (remain != 0) {
      remain--;
      vex = *iptr++; // fetch XOP3
    }
    else
      return(-1);

    vex_w = (vex >> 7) & 0x1;
    vvv = 15 - ((vex >> 3) & 0xf);
    vex_l = (vex >> 2) & 0x1;
    i->setVL(BX_VL128 + vex_l);
    sse_prefix = vex & 0x3;
    if (sse_prefix) had_xop = -1;

    if (remain != 0) {
      remain--;
      b1 = *iptr++; // fetch new b1
    }
    else
      return(-1);

    has_modrm = 1;
    b1 += 256 * xop_opcext;
  }
  else
#endif
  {
    has_modrm = BxOpcodeHasModrm32[b1];
  }

  if (has_modrm) {

#if BX_CPU_LEVEL >= 6
    unsigned b3 = 0;
    // handle 3-byte escape
    if ((attr & BxGroupX) == Bx3ByteOp) {
      if (remain != 0) {
        remain--;
        b3 = *iptr++;
      }
      else
        return(-1);
    }
#endif

    // opcode requires modrm byte
    if (remain != 0) {
      remain--;
      b2 = *iptr++;
//AO start
i->bochs486_modregrm = b2;
//AO end
    }
    else
      return(-1);

    // Parse mod-nnn-rm and related bytes
    mod = b2 & 0xc0; // leave unshifted
    nnn = (b2 >> 3) & 0x7;
    rm  = b2 & 0x7;

    i->setFoo((b2 | (b1 << 8)) & 0x7ff); /* for x87 */

    // MOVs with CRx and DRx always use register ops and ignore the mod field.
    if ((b1 & ~3) == 0x120)
      mod = 0xc0;

    if (mod == 0xc0) { // mod == 11b
      i->assertModC0();
      goto modrm_done;
    }

    mod_mem = 1;
    i->setSibBase(rm);      // initialize with rm to use BxResolve32Base
    i->setSibIndex(BX_NIL_REGISTER);
    // initialize displ32 with zero to include cases with no diplacement
    i->modRMForm.displ32u = 0;

    if (i->as32L()) {
      // 32-bit addressing modes; note that mod==11b handled above
      i->ResolveModrm = &BX_CPU_C::BxResolve32Base;
      if (rm != 4) { // no s-i-b byte
        if (mod == 0x00) { // mod == 00b
          if (rm == 5) {
            i->setSibBase(BX_NIL_REGISTER);
            if (remain > 3) {
              i->modRMForm.displ32u = FetchDWORD(iptr);
              iptr += 4;
              remain -= 4;
            }
            else return(-1);
          }
          // mod==00b, rm!=4, rm!=5
          goto modrm_done;
        }
        seg = sreg_mod1or2_base32[rm];
      }
      else { // mod!=11b, rm==4, s-i-b byte follows
        unsigned sib, base, index, scale;
        if (remain != 0) {
          sib = *iptr++;
          remain--;
        }
        else {
          return(-1);
        }
        base  = sib & 0x7; sib >>= 3;
        index = sib & 0x7; sib >>= 3;
        scale = sib;
        i->setSibScale(scale);
        i->setSibBase(base);
        // this part is a little tricky - assign index value always,
        // it will be really used if the instruction is Gather. Others
        // assume that BxResolve32Base will do the right thing.
        i->setSibIndex(index);
        if (index != 4) {
          i->ResolveModrm = &BX_CPU_C::BxResolve32BaseIndex;
        }
        if (mod == 0x00) { // mod==00b, rm==4
          seg = sreg_mod0_base32[base];
          if (base == 5) {
            i->setSibBase(BX_NIL_REGISTER);
            if (remain > 3) {
              i->modRMForm.displ32u = FetchDWORD(iptr);
              iptr += 4;
              remain -= 4;
            }
            else {
              return(-1);
            }
          }
          // mod==00b, rm==4, base!=5
          goto modrm_done;
        }
        seg = sreg_mod1or2_base32[base];
      }

      if (mod == 0x40) { // mod==01b
        if (remain != 0) {
          // 8 sign extended to 32
          i->modRMForm.displ32u = (Bit8s) *iptr++;
          remain--;
          goto modrm_done;
        }
        else {
          return(-1);
        }
      }

      // (mod == 0x80),     mod==10b
      if (remain > 3) {
        i->modRMForm.displ32u = FetchDWORD(iptr);
        iptr += 4;
        remain -= 4;
      }
      else {
        return(-1);
      }
    }
    else {
      // 16-bit addressing modes, mod==11b handled above
      i->ResolveModrm = &BX_CPU_C::BxResolve16BaseIndex;
      i->setSibBase(Resolve16BaseReg[rm]);
      i->setSibIndex(Resolve16IndexReg[rm]);
      if (mod == 0x00) { // mod == 00b
        seg = sreg_mod00_rm16[rm];
        if (rm == 6) {
          i->setSibBase(BX_NIL_REGISTER);
          if (remain > 1) {
            i->modRMForm.displ16u = FetchWORD(iptr);
            iptr += 2;
            remain -= 2;
            goto modrm_done;
          }
          else return(-1);
        }
        goto modrm_done;
      }
      seg = sreg_mod01or10_rm16[rm];
      if (mod == 0x40) { // mod == 01b
        if (remain != 0) {
          // 8 sign extended to 16
          i->modRMForm.displ16u = (Bit8s) *iptr++;
          remain--;
          goto modrm_done;
        }
        else {
          return(-1);
        }
      }
      // (mod == 0x80)      mod == 10b
      if (remain > 1) {
        i->modRMForm.displ16u = FetchWORD(iptr);
        iptr += 2;
        remain -= 2;
      }
      else {
        return(-1);
      }
    }

modrm_done:

    // Resolve ExecutePtr and additional opcode Attr
    const BxOpcodeInfo_t *OpcodeInfoPtr = &(BxOpcodeInfo32[index]);

#if BX_SUPPORT_AVX
    if (had_vex != 0) {
      if (had_vex < 0)
         OpcodeInfoPtr = &BxOpcodeGroupSSE_ERR[0]; // BX_IA_ERROR
      else
         OpcodeInfoPtr = &BxOpcodeTableAVX[(b1-256) + 768*vex_l];
    }
    else if (had_xop != 0) {
      if (had_xop < 0)
         OpcodeInfoPtr = &BxOpcodeGroupSSE_ERR[0]; // BX_IA_ERROR
      else
         OpcodeInfoPtr = &BxOpcodeTableXOP[b1 + 768*vex_l];
    }
#endif

    attr = OpcodeInfoPtr->Attr;

    while(attr & BxGroupX) {
      Bit32u group = attr & BxGroupX;
      attr &= ~BxGroupX;

      // ignore 0x66 SSE prefix is required
      if (group == BxPrefixSSEF2F3) {
        if (sse_prefix == SSE_PREFIX_66) sse_prefix = SSE_PREFIX_NONE;
        group = BxPrefixSSE;
      }

      if (group < BxPrefixSSE) {
        /* For opcodes with only one allowed SSE prefix */
        if (sse_prefix != (group >> 4)) {
          OpcodeInfoPtr = &BxOpcodeGroupSSE_ERR[0]; // BX_IA_ERROR
        }
        /* get additional attributes from group table */
        attr |= OpcodeInfoPtr->Attr;
        break;
      }

      switch(group) {
        case BxGroupN:
          OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[nnn]);
          break;
        case BxSplitGroupN:
          OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[nnn + (mod_mem << 3)]);
          break;
#if BX_SUPPORT_AVX
        case BxSplitVexW64: // VexW is ignored in 32-bit mode
          BX_ASSERT(had_vex != 0 || had_xop != 0);
          OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[0]);
          break;
        case BxSplitVexW:   // VexW is a real opcode extension
          BX_ASSERT(had_vex != 0 || had_xop != 0);
          OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[vex_w]);
          break;
        case BxSplitMod11B:
          OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[mod_mem]);
          break;
#endif
#if BX_CPU_LEVEL >= 6
        case Bx3ByteOp:
          OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[b3]);
          break;
#endif
        case BxOSizeGrp:
          OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[os_32]);
          break;
        case BxPrefixSSE:
          /* For SSE opcodes look into another table
                     with the opcode prefixes (NONE, 0x66, 0xF3, 0xF2) */
          if (sse_prefix) {
            OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[sse_prefix-1]);
            break;
          }
          continue;
        case BxFPEscape:
          if (mod_mem)
            OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[nnn]);
          else
            OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[(b2 & 0x3f) + 8]);
          break;
        case BxPrefixVEX:
          continue;
        default:
          BX_PANIC(("fetchdecode32: Unknown opcode group %d", group));
      }

      /* get additional attributes from group table */
      attr |= OpcodeInfoPtr->Attr;
    }

    ia_opcode = OpcodeInfoPtr->IA;
  }
  else {
    // Opcode does not require a MODRM byte.
    // Note that a 2-byte opcode (0F XX) will jump to before
    // the if() above after fetching the 2nd byte, so this path is
    // taken in all cases if a modrm byte is NOT required.

    const BxOpcodeInfo_t *OpcodeInfoPtr = &(BxOpcodeInfo32[index]);

#if BX_SUPPORT_AVX
    if (had_vex != 0) {
      if (had_vex < 0)
         OpcodeInfoPtr = &BxOpcodeGroupSSE_ERR[0]; // BX_IA_ERROR
      else
         OpcodeInfoPtr = &BxOpcodeTableAVX[(b1-256) + 768*vex_l];
    }
    else if (had_xop != 0) {
      if (had_xop < 0)
         OpcodeInfoPtr = &BxOpcodeGroupSSE_ERR[0]; // BX_IA_ERROR
      else
         OpcodeInfoPtr = &BxOpcodeTableXOP[b1 + 768*vex_l];
    }
#endif

    unsigned group = attr & BxGroupX;
    if (group == BxPrefixSSE && sse_prefix) {
      OpcodeInfoPtr = &(OpcodeInfoPtr->AnotherArray[sse_prefix-1]);
    }

    ia_opcode = OpcodeInfoPtr->IA;
    rm = b1 & 0x7;
    nnn = (b1 >> 3) & 0x7;
  }

  if (lock) { // lock prefix invalid opcode
    // lock prefix not allowed or destination operand is not memory
    if (!mod_mem || !(attr & BxLockable)) {
#if BX_CPU_LEVEL >= 6
      if (BX_CPUID_SUPPORT_CPU_EXTENSION(BX_CPU_ALT_MOV_CR8) && 
         (ia_opcode == BX_IA_MOV_CR0Rd || ia_opcode == BX_IA_MOV_RdCR0)) {
        nnn = 8; // extend CR0 -> CR8
      }
      else
#endif
      {
        BX_INFO(("LOCK prefix unallowed (op1=0x%x, modrm=0x%02x)", b1, b2));
        // replace execution function with undefined-opcode
        ia_opcode = BX_IA_ERROR;
      }
    }
  }

  if (attr & BxRepeatable)
    i->setRepUsed(rep);

  unsigned imm_mode = attr & BxImmediate;
  if (imm_mode) {
    // make sure iptr was advanced after Ib(), Iw() and Id()
    switch (imm_mode) {
      case BxImmediate_I1:
        i->modRMForm.Ib = 1;
        break;
      case BxImmediate_Ib:
        if (remain != 0) {
          i->modRMForm.Ib = *iptr++;
          remain--;
        }
        else {
          return(-1);
        }
        break;
      case BxImmediate_BrOff8:
      case BxImmediate_Ib_SE: // Sign extend to OS size
        if (remain != 0) {
          Bit8s temp8s = *iptr;
          // this code works correctly both for LE and BE hosts
          if (i->os32L())
            i->modRMForm.Id = (Bit32s) temp8s;
          else
            i->modRMForm.Iw = (Bit16s) temp8s;
          remain--;
        }
        else {
          return(-1);
        }
        break;
      case BxImmediate_Iw:
        if (remain > 1) {
          i->modRMForm.Iw = FetchWORD(iptr);
          iptr += 2;
          remain -= 2;
        }
        else {
          return(-1);
        }
        break;
      case BxImmediate_Id:
        if (remain > 3) {
          i->modRMForm.Id = FetchDWORD(iptr);
          iptr += 4;
          remain -= 4;
        }
        else {
          return(-1);
        }
        break;
      case BxImmediate_O:
        // For instructions which embed the address in the opcode.
        if (i->as32L()) {
          // fetch 32bit address into Id
          if (remain > 3) {
            i->modRMForm.Id = FetchDWORD(iptr);
            remain -= 4;
          }
          else return(-1);
        }
        else {
          // fetch 16bit address into Id
          if (remain > 1) {
            i->modRMForm.Id = (Bit32u) FetchWORD(iptr);
            remain -= 2;
          }
          else return(-1);
        }
        break;
      default:
        BX_INFO(("b1 was %x", b1));
        BX_PANIC(("fetchdecode32: imm_mode = %u", imm_mode));
    }

    unsigned imm_mode2 = attr & BxImmediate2;
    if (imm_mode2) {
      switch (imm_mode2) {
        case BxImmediate_Ib2:
          if (remain != 0) {
            i->modRMForm.Ib2 = *iptr;
            remain--;
          }
          else {
            return(-1);
          }
          break;
        case BxImmediate_Iw2:
          if (remain > 1) {
            i->modRMForm.Iw2 = FetchWORD(iptr);
            remain -= 2;
          }
          else {
            return(-1);
          }
          break;
        default:
          BX_INFO(("b1 was %x", b1));
          BX_PANIC(("fetchdecode: imm_mode2 = %u", imm_mode2));
      }
    }
  }

#if BX_SUPPORT_3DNOW
  if(b1 == 0x10f)
    ia_opcode = Bx3DNowOpcode[i->modRMForm.Ib];
#endif

  // assign sources
  for (unsigned n = 0; n <= 3; n++) {
    unsigned def = (unsigned) BxOpcodesTable[ia_opcode].src[n] & 0xf;
#if BX_SUPPORT_AVX
    if (def == BX_SRC_RM_VIB) {
      def = (vex_w) ? BX_SRC_RM : BX_SRC_VIB;
    }
    else if (def == BX_SRC_VIB_RM) {
      def = (vex_w) ? BX_SRC_VIB : BX_SRC_RM;
    }
    else if (def == BX_SRC_RM_VVV) {
      def = (vex_w) ? BX_SRC_RM : BX_SRC_VVV;
    }
    else if (def == BX_SRC_VVV_RM) {
      def = (vex_w) ? BX_SRC_VVV : BX_SRC_RM;
    }
#endif
    switch(def) {
    case BX_SRC_EAX:
      i->setSrcReg(n, 0);
      break;
    case BX_SRC_NNN:
      i->setSrcReg(n, nnn);
      break;
    case BX_SRC_RM:
      i->setSrcReg(n, mod_mem ? BX_TMP_REGISTER : rm);
      break;
#if BX_SUPPORT_AVX
    case BX_SRC_MEM_NO_VVV:
      if (mod_mem) break;
      // else fall through
    case BX_SRC_VVV:
      i->setSrcReg(n, vvv);
      use_vvv = 1;
      break;
    case BX_SRC_VIB:
      i->setSrcReg(n, (i->Ib() >> 4) & 7);
      break;
#endif
    default:
      if (def != BX_SRC_NONE)
        BX_PANIC(("fetchdecode32: unknown definition %d for src %d", def, n));
    }
  }

  // assign memory segment override
  if (! BX_NULL_SEG_REG(seg_override))
     seg = seg_override;
  i->setSeg(seg);

  i->setILen(remainingInPage - remain);
  i->setIaOpcode(ia_opcode);

#if BX_SUPPORT_AVX
  if (had_vex > 0 || had_xop > 0) {
    if (! use_vvv && vvv != 0) {
      ia_opcode = BX_IA_ERROR;
    }
    if ((attr & BxVexW0) != 0 && vex_w) {
      ia_opcode = BX_IA_ERROR;
    }
    if ((attr & BxVexW1) != 0 && !vex_w) {
      ia_opcode = BX_IA_ERROR;
    }
  }
  else {
    BX_ASSERT(! use_vvv);
  }
#endif

  if (mod_mem) {
    i->execute1 = BxOpcodesTable[ia_opcode].execute1;
    i->handlers.execute2 = BxOpcodesTable[ia_opcode].execute2;

    if (ia_opcode == BX_IA_MOV32_GdEd) {
      if (seg == BX_SEG_REG_SS)
        i->execute1 = &BX_CPU_C::MOV32S_GdEdM;
    }
    if (ia_opcode == BX_IA_MOV32_EdGd) {
      if (seg == BX_SEG_REG_SS)
        i->execute1 = &BX_CPU_C::MOV32S_EdGdM;
    }
  }
  else {
    i->execute1 = BxOpcodesTable[ia_opcode].execute2;
    i->handlers.execute2 = NULL;
  }

  BX_ASSERT(i->execute1);

#if BX_CPU_LEVEL >= 6
  Bit32u op_flags = BxOpcodesTable[ia_opcode].src[3];
  if (! BX_CPU_THIS_PTR sse_ok) {
     if (op_flags & BX_PREPARE_SSE) {
        if (i->execute1 != &BX_CPU_C::BxError) i->execute1 = &BX_CPU_C::BxNoSSE;
        return(1);
     }
  }
#if BX_SUPPORT_AVX
  if (! BX_CPU_THIS_PTR avx_ok) {
    if (op_flags & BX_PREPARE_AVX) {
       if (i->execute1 != &BX_CPU_C::BxError) i->execute1 = &BX_CPU_C::BxNoAVX;
       return(1);
    }
  }
#endif
#endif

  if ((attr & BxTraceEnd) || ia_opcode == BX_IA_ERROR)
     return(1);

  return(0);
}

BX_INSF_TYPE BX_CPP_AttrRegparmN(1) BX_CPU_C::BxError(bxInstruction_c *i)
{
  unsigned ia_opcode = i->getIaOpcode();
 
  if (ia_opcode == BX_IA_ERROR) {
    BX_DEBUG(("BxError: Encountered an unknown instruction (signalling #UD)"));

#if BX_DISASM && BX_DEBUGGER == 0 // with debugger it easy to see the #UD
    if (LOG_THIS getonoff(LOGLEV_DEBUG))
      debug_disasm_instruction(BX_CPU_THIS_PTR prev_rip);
#endif
  }
  else {
    BX_DEBUG(("%s: instruction not supported - signalling #UD (features bitmask: 0x%08x)",
      get_bx_opcode_name(ia_opcode), BX_CPU_THIS_PTR isa_extensions_bitmask));
  }

  exception(BX_UD_EXCEPTION, 0);

  BX_NEXT_TRACE(i); // keep compiler happy
}

const char *get_bx_opcode_name(Bit16u ia_opcode)
{
  static const char* BxOpcodeNamesTable[BX_IA_LAST] =
  {
#define bx_define_opcode(a, b, c, d, s1, s2, s3, s4, e) #a,
#include "ia_opcodes.h"
  };
#undef  bx_define_opcode

  return (ia_opcode < BX_IA_LAST) ? BxOpcodeNamesTable[ia_opcode] : 0;
}

void BX_CPU_C::init_FetchDecodeTables(void)
{
  static Bit64u BxOpcodeFeatures[BX_IA_LAST] =
  {
#define bx_define_opcode(a, b, c, d, s1, s2, s3, s4, e) d,
#include "ia_opcodes.h"
  };
#undef  bx_define_opcode

  Bit64u features = BX_CPU_THIS_PTR isa_extensions_bitmask;
#if BX_CPU_LEVEL > 3
  if (! features)
    BX_PANIC(("init_FetchDecodeTables: CPU features bitmask is empty !"));
#endif

  if (BX_IA_LAST > 0xfff)
    BX_PANIC(("init_FetchDecodeTables: too many opcodes defined !"));
  
  for (unsigned n=0; n < BX_IA_LAST; n++) {
    Bit64u ia_opcode_features = BxOpcodeFeatures[n];
    if (ia_opcode_features && (ia_opcode_features & features) == 0) {
      BxOpcodesTable[n].execute1 = &BX_CPU_C::BxError;
      BxOpcodesTable[n].execute2 = &BX_CPU_C::BxError;
      // won't allow this new #UD opcode to check prepare_SSE and similar
      BxOpcodesTable[n].src[3] = 0;
    }
  }

  // handle special case - BSF/BSR vs TZCNT/LZCNT
  if (! BX_CPUID_SUPPORT_ISA_EXTENSION(BX_ISA_LZCNT)) {
    BxOpcodesTable[BX_IA_LZCNT_GwEw] = BxOpcodesTable[BX_IA_BSR_GwEw];
    BxOpcodesTable[BX_IA_LZCNT_GdEd] = BxOpcodesTable[BX_IA_BSR_GdEd];
#if BX_SUPPORT_X86_64
    BxOpcodesTable[BX_IA_LZCNT_GqEq] = BxOpcodesTable[BX_IA_BSR_GqEq];
#endif
  }

  if (! BX_CPUID_SUPPORT_ISA_EXTENSION(BX_ISA_BMI1)) {
    BxOpcodesTable[BX_IA_TZCNT_GwEw] = BxOpcodesTable[BX_IA_BSF_GwEw];
    BxOpcodesTable[BX_IA_TZCNT_GdEd] = BxOpcodesTable[BX_IA_BSF_GdEd];
#if BX_SUPPORT_X86_64
    BxOpcodesTable[BX_IA_TZCNT_GqEq] = BxOpcodesTable[BX_IA_BSF_GqEq];
#endif
  }
}
